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Effects of heat treatment atmosphere on the structure and activity of Pt3Sn nanoparticle electrocatalysts: a characterisation case study
descriptionPublicationkeyboard_double_arrow_right Article , Conference object , Journal 2018 United Kingdom Publisher:Royal Society of Chemistry (RSC)Funded by:UKRI | University of Bristol - E..., UKRI | The UK Catalysis Hub, UKRI | Catalytic Science in the ... +4 projects
UKRI| University of Bristol - Equipment Account ,
UKRI| The UK Catalysis Hub ,
UKRI| Catalytic Science in the Harwell Research Centre ,
UKRI| The UK Catalysis Hub ,
UKRI| The UK Catalysis Hub ,
UKRI| Equipment to Underpin Internationally Leading Research at the University of Bristol ,
UKRI| The UK Catalysis Hub
Authors: Vinod Kumar Puthiyapura; Vinod Kumar Puthiyapura; Dan J. L. Brett; Haoliang Huang; +6 Authors
Vinod Kumar Puthiyapura; Vinod Kumar Puthiyapura; Dan J. L. Brett; Haoliang Huang; Abu Bakr Ahmed Amine Nassr; Andrea E. Russell; Christopher Hardacre; Christopher Hardacre; Veronica Celorrio; S. F. Rebecca Taylor;
doi: 10.1039/c7fd00221a
pmid: 29851419
handle: 1983/e4e756a4-b0e8-45c7-923b-d4c646a58811
doi: 10.1039/c7fd00221a
pmid: 29851419
handle: 1983/e4e756a4-b0e8-45c7-923b-d4c646a58811
In this work, a variation in heat treatment atmosphere approach is taken to provide a series of related PtSn catalysts with the same nominal composition of Pt3Sn, but with different surface compositions.
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e-Prints Soton
Article . 2018 . Peer-reviewed
Full-Text: https://eprints.soton.ac.uk/421733/1/Manuscript_NP_FD_with_template_26_10_2018.pdf
Data sources: e-Prints Soton
e-Prints Soton
Article . 2018
License: CC BY
Full-Text: https://eprints.soton.ac.uk/421733/1/Manuscript_NP_FD_with_template_26_10_2018.pdf
Data sources: Bielefeld Academic Search Engine (BASE)
Faraday Discussions
Article . 2018 . Peer-reviewed
License: CC BY
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Faraday Discussions
Article
License: CC BY
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Faraday Discussions
Conference object
Data sources: OpenAPC Global Initiative
Explore Bristol Research
Article . 2018
Data sources: Explore Bristol Research
The University of Manchester - Institutional Repository
Article . 2018
Data sources: The University of Manchester - Institutional Repository
University of Bristol: Bristol Research
Article . 2018
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Faraday Discussions
Article . 2019
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Article . 2018 . Peer-reviewed
Full-Text: https://eprints.soton.ac.uk/421733/1/Manuscript_NP_FD_with_template_26_10_2018.pdf
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e-Prints Soton
Article . 2018
License: CC BY
Full-Text: https://eprints.soton.ac.uk/421733/1/Manuscript_NP_FD_with_template_26_10_2018.pdf
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Explore Bristol Research
Article . 2018
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Article . 2018
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Article . 2018
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Effects of heat treatment atmosphere on the structure and activity of Pt3Sn nanoparticle electrocatalysts: a characterisation case study
descriptionPublicationkeyboard_double_arrow_right Article , Conference object , Journal 2018 United Kingdom Publisher:Royal Society of Chemistry (RSC)Funded by:UKRI | University of Bristol - E..., UKRI | The UK Catalysis Hub, UKRI | Catalytic Science in the ... +4 projects
UKRI| University of Bristol - Equipment Account ,
UKRI| The UK Catalysis Hub ,
UKRI| Catalytic Science in the Harwell Research Centre ,
UKRI| The UK Catalysis Hub ,
UKRI| The UK Catalysis Hub ,
UKRI| Equipment to Underpin Internationally Leading Research at the University of Bristol ,
UKRI| The UK Catalysis Hub
Authors: Vinod Kumar Puthiyapura; Vinod Kumar Puthiyapura; Dan J. L. Brett; Haoliang Huang; +6 Authors
Vinod Kumar Puthiyapura; Vinod Kumar Puthiyapura; Dan J. L. Brett; Haoliang Huang; Abu Bakr Ahmed Amine Nassr; Andrea E. Russell; Christopher Hardacre; Christopher Hardacre; Veronica Celorrio; S. F. Rebecca Taylor;
doi: 10.1039/c7fd00221a
pmid: 29851419
handle: 1983/e4e756a4-b0e8-45c7-923b-d4c646a58811
doi: 10.1039/c7fd00221a
pmid: 29851419
handle: 1983/e4e756a4-b0e8-45c7-923b-d4c646a58811
In this work, a variation in heat treatment atmosphere approach is taken to provide a series of related PtSn catalysts with the same nominal composition of Pt3Sn, but with different surface compositions.
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e-Prints Sotonarrow_drop_down
e-Prints Soton
Article . 2018 . Peer-reviewed
Full-Text: https://eprints.soton.ac.uk/421733/1/Manuscript_NP_FD_with_template_26_10_2018.pdf
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e-Prints Soton
Article . 2018
License: CC BY
Full-Text: https://eprints.soton.ac.uk/421733/1/Manuscript_NP_FD_with_template_26_10_2018.pdf
Data sources: Bielefeld Academic Search Engine (BASE)
Faraday Discussions
Article . 2018 . Peer-reviewed
License: CC BY
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Explore Bristol Research
Article . 2018
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Article . 2018
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University of Bristol: Bristol Research
Article . 2018
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Faraday Discussions
Article . 2019
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e-Prints Soton
Article . 2018 . Peer-reviewed
Full-Text: https://eprints.soton.ac.uk/421733/1/Manuscript_NP_FD_with_template_26_10_2018.pdf
Data sources: e-Prints Soton
e-Prints Soton
Article . 2018
License: CC BY
Full-Text: https://eprints.soton.ac.uk/421733/1/Manuscript_NP_FD_with_template_26_10_2018.pdf
Data sources: Bielefeld Academic Search Engine (BASE)
Faraday Discussions
Article . 2018 . Peer-reviewed
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Explore Bristol Research
Article . 2018
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The University of Manchester - Institutional Repository
Article . 2018
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University of Bristol: Bristol Research
Article . 2018
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Faraday Discussions
Article . 2019
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Understanding the Competitive Gas Absorption of CO2 and SO2 in Superbase Ionic Liquids
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2018 United Kingdom, France Publisher:American Chemical Society (ACS)Funded by:UKRI | A Coordinated, Comprehens..., UKRI | Utilisation of Solar Ener...
UKRI| A Coordinated, Comprehensive approach to Carbon Capture and Utilisation ,
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals
Authors: Johan Jacquemin; Johan Jacquemin; Adam J. Greer; Matthew McClung; +4 Authors
Johan Jacquemin; Johan Jacquemin; Adam J. Greer; Matthew McClung; Ciaran McReynolds; S. F. Rebecca Taylor; Christopher Hardacre; Helen Daly;
doi: 10.1021/acs.iecr.8b03623
doi: 10.1021/acs.iecr.8b03623
During this work, an original study of the CO2 and SO2 competitive gas absorption in three superbase ionic liquids (ILs), namely, trihexyltetradecylphosphonium 1,2,4-triazolide ([P66614][124Triz]), and trihexyltetradecylphoshonium benzimidazolide ([P66614][Benzim]), is reported for the first time. To initiate such a comprehensive study, the CO2 and SO2 mixed gas solubility in selected ILs was determined by using an original and accurate dynamic method coupled with mass spectrometry after several absorption and desorption cycles. This method has been validated by comparing the gravimetric uptake of CO2 with the mass spectrometry data using trihexyltetradecylphosphonium benzotriazolide, 1,2,4-triazolide, and benzimidazolide ILs and shown to be consistent within 10% in mole ratio units. Solubility results clearly show that the presence of SO2 in the gas stream decreases the CO2 capture capability of the investigated ILs. Furthermore, the viscosity, chemical analysis (water content and sulfur content), and sp...
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Industrial & Engineering Chemistry Research
Article . 2018 . Peer-reviewed
License: http://pubs.acs.org/page/policy/authorchoice_ccby_termsofuse.html
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Article . 2018
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Article . 2018
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Article . 2018
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Article . 2018
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Article . 2018 . Peer-reviewed
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Understanding the Competitive Gas Absorption of CO2 and SO2 in Superbase Ionic Liquids
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2018 United Kingdom, France Publisher:American Chemical Society (ACS)Funded by:UKRI | A Coordinated, Comprehens..., UKRI | Utilisation of Solar Ener...
UKRI| A Coordinated, Comprehensive approach to Carbon Capture and Utilisation ,
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals
Authors: Johan Jacquemin; Johan Jacquemin; Adam J. Greer; Matthew McClung; +4 Authors
Johan Jacquemin; Johan Jacquemin; Adam J. Greer; Matthew McClung; Ciaran McReynolds; S. F. Rebecca Taylor; Christopher Hardacre; Helen Daly;
doi: 10.1021/acs.iecr.8b03623
doi: 10.1021/acs.iecr.8b03623
During this work, an original study of the CO2 and SO2 competitive gas absorption in three superbase ionic liquids (ILs), namely, trihexyltetradecylphosphonium 1,2,4-triazolide ([P66614][124Triz]), and trihexyltetradecylphoshonium benzimidazolide ([P66614][Benzim]), is reported for the first time. To initiate such a comprehensive study, the CO2 and SO2 mixed gas solubility in selected ILs was determined by using an original and accurate dynamic method coupled with mass spectrometry after several absorption and desorption cycles. This method has been validated by comparing the gravimetric uptake of CO2 with the mass spectrometry data using trihexyltetradecylphosphonium benzotriazolide, 1,2,4-triazolide, and benzimidazolide ILs and shown to be consistent within 10% in mole ratio units. Solubility results clearly show that the presence of SO2 in the gas stream decreases the CO2 capture capability of the investigated ILs. Furthermore, the viscosity, chemical analysis (water content and sulfur content), and sp...
Industrial & Enginee...arrow_drop_down
Industrial & Engineering Chemistry Research
Article . 2018 . Peer-reviewed
License: http://pubs.acs.org/page/policy/authorchoice_ccby_termsofuse.html
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Article . 2018
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Article . 2018
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Factors affecting bubble size in ionic liquids
descriptionPublicationkeyboard_double_arrow_right Article , Conference object , Journal 2017 France, United Kingdom Publisher:Royal Society of Chemistry (RSC)Funded by:UKRI | Utilisation of Solar Ener..., UKRI | A Coordinated, Comprehens...
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals ,
UKRI| A Coordinated, Comprehensive approach to Carbon Capture and Utilisation
Authors: William A. Zimmerman; Stuart A. Brittle; Sarah F. R. Taylor; Sarah F. R. Taylor; +5 Authors
William A. Zimmerman; Stuart A. Brittle; Sarah F. R. Taylor; Sarah F. R. Taylor; Johan Jacquemin; Johan Jacquemin; Pratik Desai; Christopher Hardacre; Christopher Hardacre;
doi: 10.1039/c7cp01725a
pmid: 28537605
doi: 10.1039/c7cp01725a
pmid: 28537605
Bubble behaviour of 11 ionic liquids was studied and the relationship of bubble size, physical properties and structure was examined.
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COREarrow_drop_down
CORE
Article . 2017
License: CC BY
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Article . 2017
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Article . 2017 . Peer-reviewed
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Article . 2018
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Article . 2017
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Article . 2017
License: CC BY
Full-Text: https://eprints.whiterose.ac.uk/117115/1/c7cp01725a.pdf
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Article . 2017
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Article . 2017
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Article . 2017
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Article . 2017
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Article . 2017
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Article . 2017
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Factors affecting bubble size in ionic liquids
descriptionPublicationkeyboard_double_arrow_right Article , Conference object , Journal 2017 France, United Kingdom Publisher:Royal Society of Chemistry (RSC)Funded by:UKRI | Utilisation of Solar Ener..., UKRI | A Coordinated, Comprehens...
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals ,
UKRI| A Coordinated, Comprehensive approach to Carbon Capture and Utilisation
Authors: William A. Zimmerman; Stuart A. Brittle; Sarah F. R. Taylor; Sarah F. R. Taylor; +5 Authors
William A. Zimmerman; Stuart A. Brittle; Sarah F. R. Taylor; Sarah F. R. Taylor; Johan Jacquemin; Johan Jacquemin; Pratik Desai; Christopher Hardacre; Christopher Hardacre;
doi: 10.1039/c7cp01725a
pmid: 28537605
doi: 10.1039/c7cp01725a
pmid: 28537605
Bubble behaviour of 11 ionic liquids was studied and the relationship of bubble size, physical properties and structure was examined.
downloaddonwloadFull-Text
COREarrow_drop_down
CORE
Article . 2017
License: CC BY
Full-Text: https://eprints.whiterose.ac.uk/117115/1/c7cp01725a.pdf
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White Rose Research Online
Article . 2017
License: CC BY
Full-Text: http://eprints.whiterose.ac.uk/117115/1/c7cp01725a.pdf
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Physical Chemistry Chemical Physics
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Queen's University Research Portal
Article . 2017
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Article . 2017
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Article . 2017
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Article . 2017
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Queen's University Belfast Research Portal
Article . 2017
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HAL Université de Tours
Article . 2017
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Physical Chemistry Chemical Physics
Article . 2017 . Peer-reviewed
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Article . 2018
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Article . 2017
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How to go beyond C1 products with electrochemical reduction of CO2
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2021 France Publisher:Royal Society of Chemistry (RSC)Funded by:UKRI | Flexible Routes to Liquid..., UKRI | Liquid Fuel and bioEnergy..., UKRI | UKRI Interdisciplinary Ce... +2 projects
UKRI| Flexible Routes to Liquid Fuels from CO2 by Advanced Catalysis and Engineering ,
UKRI| Liquid Fuel and bioEnergy Supply from CO2 Reduction ,
UKRI| UKRI Interdisciplinary Centre for Circular Chemical Economy ,
UKRI| Resource recovery from wastewater with Bioelectrochemical Systems ,
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Authors: Jean-Marie Fontmorin; Jean-Marie Fontmorin; Hang Xiang; Liam Banerji; +14 Authors
Jean-Marie Fontmorin; Jean-Marie Fontmorin; Hang Xiang; Liam Banerji; Jin Xuan; Rebecca S.F. Taylor; Eileen Hao Yu; Eileen Hao Yu; Eileen Hao Yu; Da Li; Da Li; Alberto Roldan; Shahid Rasul; Alexander J. Cowan; Yujie Feng; Paniz Izadi; Paniz Izadi; Hao Zhang;
doi: 10.1039/d1se00861g
doi: 10.1039/d1se00861g
This review summaries recent development across electro-, photoelectro- and bioelectro-catalyst developments for multi-carbon products from CO2. It also explores the role of device design and operating conditions in enabling C–C bond generation.
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How to go beyond C1 products with electrochemical reduction of CO2
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2021 France Publisher:Royal Society of Chemistry (RSC)Funded by:UKRI | Flexible Routes to Liquid..., UKRI | Liquid Fuel and bioEnergy..., UKRI | UKRI Interdisciplinary Ce... +2 projects
UKRI| Flexible Routes to Liquid Fuels from CO2 by Advanced Catalysis and Engineering ,
UKRI| Liquid Fuel and bioEnergy Supply from CO2 Reduction ,
UKRI| UKRI Interdisciplinary Centre for Circular Chemical Economy ,
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Authors: Jean-Marie Fontmorin; Jean-Marie Fontmorin; Hang Xiang; Liam Banerji; +14 Authors
Jean-Marie Fontmorin; Jean-Marie Fontmorin; Hang Xiang; Liam Banerji; Jin Xuan; Rebecca S.F. Taylor; Eileen Hao Yu; Eileen Hao Yu; Eileen Hao Yu; Da Li; Da Li; Alberto Roldan; Shahid Rasul; Alexander J. Cowan; Yujie Feng; Paniz Izadi; Paniz Izadi; Hao Zhang;
doi: 10.1039/d1se00861g
doi: 10.1039/d1se00861g
This review summaries recent development across electro-, photoelectro- and bioelectro-catalyst developments for multi-carbon products from CO2. It also explores the role of device design and operating conditions in enabling C–C bond generation.
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Using lake sediments to assess the long-term impacts of anthropogenic activity in tropical river deltas
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Review 2023 United Kingdom, Netherlands, United Kingdom, United Kingdom Publisher:SAGE PublicationsFunded by:UKRI | GCRF Living Deltas Hub
UKRI| GCRF Living Deltas Hub
Authors: Richard E. Walton; Heather Moorhouse; Lucy R. Roberts; Jorge Salgado; +9 Authors
Richard E. Walton; Heather Moorhouse; Lucy R. Roberts; Jorge Salgado; Cai Ladd; Thu Nga; Virginia N. Panizzo; Phạm Đăng Trí Văn; Nigel K. Downes; Duc Anh Trinh; Suzanne McGowan; S. F. Rebecca Taylor; Andrew C. G. Henderson;
doi: 10.1177/20530196231204334 , 10.60692/h7teh-1b055 , 10.60692/hq28v-61t17
pmid: 39156121
pmc: PMC11324390
handle: 20.500.11755/e7bb944e-73af-4112-a5e8-ff134b2ea612
doi: 10.1177/20530196231204334 , 10.60692/h7teh-1b055 , 10.60692/hq28v-61t17
pmid: 39156121
pmc: PMC11324390
handle: 20.500.11755/e7bb944e-73af-4112-a5e8-ff134b2ea612
Tropical river deltas, and the social-ecological systems they sustain, are changing rapidly due to anthropogenic activity and climatic change. Baseline data to inform sustainable management options for resilient deltas is urgently needed and palaeolimnology (reconstructing past conditions from lake or wetland deposits) can provide crucial long-term perspectives needed to identify drivers and rates of change. We review how palaeolimnology can be a valuable tool for resource managers using three current issues facing tropical delta regions: hydrology and sediment supply, salinisation and nutrient pollution. The unique ability of palaeolimnological methods to untangle multiple stressors is also discussed. We demonstrate how palaeolimnology has been used to understand each of these issues, in other aquatic environments, to be incorporated into policy. Palaeolimnology is a key tool to understanding how anthropogenic influences interact with other environmental stressors, providing policymakers and resource managers with a ‘big picture’ view and possible holistic solutions that can be implemented.
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Using lake sediments to assess the long-term impacts of anthropogenic activity in tropical river deltas
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Review 2023 United Kingdom, Netherlands, United Kingdom, United Kingdom Publisher:SAGE PublicationsFunded by:UKRI | GCRF Living Deltas Hub
UKRI| GCRF Living Deltas Hub
Authors: Richard E. Walton; Heather Moorhouse; Lucy R. Roberts; Jorge Salgado; +9 Authors
Richard E. Walton; Heather Moorhouse; Lucy R. Roberts; Jorge Salgado; Cai Ladd; Thu Nga; Virginia N. Panizzo; Phạm Đăng Trí Văn; Nigel K. Downes; Duc Anh Trinh; Suzanne McGowan; S. F. Rebecca Taylor; Andrew C. G. Henderson;
doi: 10.1177/20530196231204334 , 10.60692/h7teh-1b055 , 10.60692/hq28v-61t17
pmid: 39156121
pmc: PMC11324390
handle: 20.500.11755/e7bb944e-73af-4112-a5e8-ff134b2ea612
doi: 10.1177/20530196231204334 , 10.60692/h7teh-1b055 , 10.60692/hq28v-61t17
pmid: 39156121
pmc: PMC11324390
handle: 20.500.11755/e7bb944e-73af-4112-a5e8-ff134b2ea612
Tropical river deltas, and the social-ecological systems they sustain, are changing rapidly due to anthropogenic activity and climatic change. Baseline data to inform sustainable management options for resilient deltas is urgently needed and palaeolimnology (reconstructing past conditions from lake or wetland deposits) can provide crucial long-term perspectives needed to identify drivers and rates of change. We review how palaeolimnology can be a valuable tool for resource managers using three current issues facing tropical delta regions: hydrology and sediment supply, salinisation and nutrient pollution. The unique ability of palaeolimnological methods to untangle multiple stressors is also discussed. We demonstrate how palaeolimnology has been used to understand each of these issues, in other aquatic environments, to be incorporated into policy. Palaeolimnology is a key tool to understanding how anthropogenic influences interact with other environmental stressors, providing policymakers and resource managers with a ‘big picture’ view and possible holistic solutions that can be implemented.
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Combined Experimental and Theoretical Study of the Competitive Absorption of CO2 and NO2 by a Superbase Ionic Liquid
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2021 United Kingdom Publisher:American Chemical Society (ACS)Funded by:UKRI | The UK Catalysis Hub - 'S..., UKRI | Biocatalysis & Biotra..., UKRI | Utilisation of Solar Ener...
UKRI| The UK Catalysis Hub - 'Science': 1 - Optimising, predicting and designing new Catalysts ,
UKRI| Biocatalysis & Biotransformation: A 5th Theme for the National Catalysis Hub ,
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals
Authors: C. Richard A. Catlow; Johan Jacquemin; Matthew G. Quesne; Matthew G. Quesne; +6 Authors
C. Richard A. Catlow; Johan Jacquemin; Matthew G. Quesne; Matthew G. Quesne; Adam J. Greer; S. F. Rebecca Taylor; Christopher Hardacre; Helen Daly; Nora H. de Leeuw; Nora H. de Leeuw;
doi: 10.1021/acssuschemeng.1c01451
pmid: 34306836
pmc: PMC8296676
doi: 10.1021/acssuschemeng.1c01451
pmid: 34306836
pmc: PMC8296676
A superbase ionic liquid (IL), trihexyltetradecylphosphonium benzimidazolide ([P66614][Benzim]), is investigated for the capture of CO2 in the presence of NO2 impurities. The effect of the waste gas stream contaminant on the ability of the IL to absorb simultaneously CO2 is demonstrated using novel measurement techniques, including a mass spectrometry breakthrough method and in situ infrared spectroscopy. The findings show that the presence of an industrially relevant concentration of NO2 in a combined feed with CO2 has the effect of reducing the capacity of the IL to absorb CO2 efficiently by ∼60% after 10 absorption-desorption cycles. This finding is supported by physical property analysis (viscosity, 1H and 13C NMR, and X-ray photoelectron spectroscopy) and spectroscopic infrared characterization, in addition to density functional theory (DFT) calculations, to determine the structure of the IL-NO2 complex. The results are presented in comparison with another flue gas component, NO, demonstrating that the absorption of NO2 is more favorable, thereby hindering the ability of the IL to absorb CO2. Significantly, this work aids understanding of the effects that individual components of flue gas have on CO2 capture sorbents, through studying a contaminant that has received limited interest previously.
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Combined Experimental and Theoretical Study of the Competitive Absorption of CO2 and NO2 by a Superbase Ionic Liquid
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2021 United Kingdom Publisher:American Chemical Society (ACS)Funded by:UKRI | The UK Catalysis Hub - 'S..., UKRI | Biocatalysis & Biotra..., UKRI | Utilisation of Solar Ener...
UKRI| The UK Catalysis Hub - 'Science': 1 - Optimising, predicting and designing new Catalysts ,
UKRI| Biocatalysis & Biotransformation: A 5th Theme for the National Catalysis Hub ,
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals
Authors: C. Richard A. Catlow; Johan Jacquemin; Matthew G. Quesne; Matthew G. Quesne; +6 Authors
C. Richard A. Catlow; Johan Jacquemin; Matthew G. Quesne; Matthew G. Quesne; Adam J. Greer; S. F. Rebecca Taylor; Christopher Hardacre; Helen Daly; Nora H. de Leeuw; Nora H. de Leeuw;
doi: 10.1021/acssuschemeng.1c01451
pmid: 34306836
pmc: PMC8296676
doi: 10.1021/acssuschemeng.1c01451
pmid: 34306836
pmc: PMC8296676
A superbase ionic liquid (IL), trihexyltetradecylphosphonium benzimidazolide ([P66614][Benzim]), is investigated for the capture of CO2 in the presence of NO2 impurities. The effect of the waste gas stream contaminant on the ability of the IL to absorb simultaneously CO2 is demonstrated using novel measurement techniques, including a mass spectrometry breakthrough method and in situ infrared spectroscopy. The findings show that the presence of an industrially relevant concentration of NO2 in a combined feed with CO2 has the effect of reducing the capacity of the IL to absorb CO2 efficiently by ∼60% after 10 absorption-desorption cycles. This finding is supported by physical property analysis (viscosity, 1H and 13C NMR, and X-ray photoelectron spectroscopy) and spectroscopic infrared characterization, in addition to density functional theory (DFT) calculations, to determine the structure of the IL-NO2 complex. The results are presented in comparison with another flue gas component, NO, demonstrating that the absorption of NO2 is more favorable, thereby hindering the ability of the IL to absorb CO2. Significantly, this work aids understanding of the effects that individual components of flue gas have on CO2 capture sorbents, through studying a contaminant that has received limited interest previously.
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Arc Synthesis, Crystal Structure, and Photoelectrochemistry of Copper(I) Tungstate
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2021 Netherlands, United Kingdom Publisher:American Chemical Society (ACS)Funded by:UKRI | Utilisation of Solar Ener..., NWO | Earth-abundant materials ...
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals ,
NWO| Earth-abundant materials for the sustainable catalysis of CO2 to fuels and chemicals: Linking computation to experiment
Authors: Miguel T. Galante; S. F. Rebecca Taylor; Adam J. Greer; Aleksandar Živković; +11 Authors
Miguel T. Galante; S. F. Rebecca Taylor; Adam J. Greer; Aleksandar Živković; Nora H. de Leeuw; Nora H. de Leeuw; Cinthia Cristina Calchi Kleiner; Krishnan Rajeshwar; Rodnei Bertazzoli; Márcio Sangali; Christopher Hardacre; Jéssica Costa Alvim; Rubens Caram; Robin T. Macaluso; Claudia Longo;
doi: 10.1021/acsami.1c03928
pmid: 34251184
pmc: PMC8311641
doi: 10.1021/acsami.1c03928
pmid: 34251184
pmc: PMC8311641
A little-studied p-type ternary oxide semiconductor, copper(I) tungstate (Cu2WO4), was assessed by a combined theoretical/experimental approach. A detailed computational study was performed to solve the long-standing debate on the space group of Cu2WO4, which was determined to be triclinic P1. Cu2WO4 was synthesized by a time-efficient, arc-melting method, and the crystalline reddish particulate product showed broad-band absorption in the UV-visible spectral region, thermal stability up to ∼260 °C, and cathodic photoelectrochemical activity. Controlled thermal oxidation of copper from the Cu(I) to Cu(II) oxidation state showed that the crystal lattice could accommodate Cu2+ cations up to ∼260 °C, beyond which the compound was converted to CuO and CuWO4. This process was monitored by powder X-ray diffraction and X-ray photoelectron spectroscopy. The electronic band structure of Cu2WO4 was contrasted with that of the Cu(II) counterpart, CuWO4 using spin-polarized density functional theory (DFT). Finally, the compound Cu2WO4 was determined to have a high-lying (negative potential) conduction band edge underlining its promise for driving energetic photoredox reactions.
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Arc Synthesis, Crystal Structure, and Photoelectrochemistry of Copper(I) Tungstate
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2021 Netherlands, United Kingdom Publisher:American Chemical Society (ACS)Funded by:UKRI | Utilisation of Solar Ener..., NWO | Earth-abundant materials ...
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals ,
NWO| Earth-abundant materials for the sustainable catalysis of CO2 to fuels and chemicals: Linking computation to experiment
Authors: Miguel T. Galante; S. F. Rebecca Taylor; Adam J. Greer; Aleksandar Živković; +11 Authors
Miguel T. Galante; S. F. Rebecca Taylor; Adam J. Greer; Aleksandar Živković; Nora H. de Leeuw; Nora H. de Leeuw; Cinthia Cristina Calchi Kleiner; Krishnan Rajeshwar; Rodnei Bertazzoli; Márcio Sangali; Christopher Hardacre; Jéssica Costa Alvim; Rubens Caram; Robin T. Macaluso; Claudia Longo;
doi: 10.1021/acsami.1c03928
pmid: 34251184
pmc: PMC8311641
doi: 10.1021/acsami.1c03928
pmid: 34251184
pmc: PMC8311641
A little-studied p-type ternary oxide semiconductor, copper(I) tungstate (Cu2WO4), was assessed by a combined theoretical/experimental approach. A detailed computational study was performed to solve the long-standing debate on the space group of Cu2WO4, which was determined to be triclinic P1. Cu2WO4 was synthesized by a time-efficient, arc-melting method, and the crystalline reddish particulate product showed broad-band absorption in the UV-visible spectral region, thermal stability up to ∼260 °C, and cathodic photoelectrochemical activity. Controlled thermal oxidation of copper from the Cu(I) to Cu(II) oxidation state showed that the crystal lattice could accommodate Cu2+ cations up to ∼260 °C, beyond which the compound was converted to CuO and CuWO4. This process was monitored by powder X-ray diffraction and X-ray photoelectron spectroscopy. The electronic band structure of Cu2WO4 was contrasted with that of the Cu(II) counterpart, CuWO4 using spin-polarized density functional theory (DFT). Finally, the compound Cu2WO4 was determined to have a high-lying (negative potential) conduction band edge underlining its promise for driving energetic photoredox reactions.
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Investigating the Effect of NO on the Capture of CO2 Using Superbase Ionic Liquids for Flue Gas Applications
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2019 United Kingdom, France Publisher:American Chemical Society (ACS)Funded by:UKRI | Utilisation of Solar Ener...
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals
Authors: Adam J. Greer; S. F. Rebecca Taylor; Helen Daly; Matthew Quesne; +3 Authors
Adam J. Greer; S. F. Rebecca Taylor; Helen Daly; Matthew Quesne; C. Richard A. Catlow; Johan Jacquemin; Christopher Hardacre;
doi: 10.1021/acssuschemeng.8b05870
doi: 10.1021/acssuschemeng.8b05870
The effect of acidic gases present in flue gas, specifically NO, on the capture of CO2 by the superbase ionic liquid, trihexyltetradecylphosphonium benzimidazolide ([P66614][Benzim]), is reported. An online mass spectrometry technique was utilized to study the CO2 uptake of the ionic liquid during multiple absorption and desorption cycles of a gas feed containing NO and CO2 at realistic flue gas concentrations, and it was found that while NO alone could bind irreversibly, the CO2 capacity of the IL was largely unaffected by the presence of NO in a cofeed of the gases. In situ attenuated total reflection infrared was employed to probe the competitive absorption of CO2 and NO by [P66614][Benzim], in which carbamate and NONOate species were observed to cobind to different sites of the benzimidazolide anion. These effects were further characterized by analyzing changes in physical properties (viscosity and nitrogen content) and other spectroscopic changes (1H NMR, 13C NMR and XPS). Density functional theory c...
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Investigating the Effect of NO on the Capture of CO2 Using Superbase Ionic Liquids for Flue Gas Applications
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2019 United Kingdom, France Publisher:American Chemical Society (ACS)Funded by:UKRI | Utilisation of Solar Ener...
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals
Authors: Adam J. Greer; S. F. Rebecca Taylor; Helen Daly; Matthew Quesne; +3 Authors
Adam J. Greer; S. F. Rebecca Taylor; Helen Daly; Matthew Quesne; C. Richard A. Catlow; Johan Jacquemin; Christopher Hardacre;
doi: 10.1021/acssuschemeng.8b05870
doi: 10.1021/acssuschemeng.8b05870
The effect of acidic gases present in flue gas, specifically NO, on the capture of CO2 by the superbase ionic liquid, trihexyltetradecylphosphonium benzimidazolide ([P66614][Benzim]), is reported. An online mass spectrometry technique was utilized to study the CO2 uptake of the ionic liquid during multiple absorption and desorption cycles of a gas feed containing NO and CO2 at realistic flue gas concentrations, and it was found that while NO alone could bind irreversibly, the CO2 capacity of the IL was largely unaffected by the presence of NO in a cofeed of the gases. In situ attenuated total reflection infrared was employed to probe the competitive absorption of CO2 and NO by [P66614][Benzim], in which carbamate and NONOate species were observed to cobind to different sites of the benzimidazolide anion. These effects were further characterized by analyzing changes in physical properties (viscosity and nitrogen content) and other spectroscopic changes (1H NMR, 13C NMR and XPS). Density functional theory c...
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Combined Superbase Ionic Liquid Approach to Separate CO2 from Flue Gas
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type 2022 United Kingdom Publisher:American Chemical Society (ACS)Funded by:UKRI | Utilisation of Solar Ener...
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals
Authors: Adam J. Greer; S. F. Rebecca Taylor; Helen Daly; Johan Jacquemin; +1 Authors
Adam J. Greer; S. F. Rebecca Taylor; Helen Daly; Johan Jacquemin; Christopher Hardacre;
doi: 10.1021/acssuschemeng.2c01848
pmid: 35910293
pmc: PMC9326967
doi: 10.1021/acssuschemeng.2c01848
pmid: 35910293
pmc: PMC9326967
Superbase ionic liquids (ILs) with a trihexyltetradecylphosphonium cation and a benzimidazolide ([P66614][Benzim]) or tetrazolide ([P66614][Tetz]) anion were investigated in a dual-IL system allowing the selective capture and separation of CO2 and SO2, respectively, under realistic gas concentrations. The results show that [P66614][Tetz] is capable of efficiently capturing SO2 in preference to CO2 and thus, in a stepwise separation process, protects [P66614][Benzim] from the negative effects of the highly acidic contaminant. This results in [P66614][Benzim] maintaining >53% of its original CO2 uptake capacity after 30 absorption/desorption cycles in comparison to the 89% decrease observed after 11 cycles when [P66614][Tetz] was not present. Characterization of the ILs post exposure revealed that small amounts of SO2 were irreversibly absorbed to the [Benzim]- anion responsible for the decrease in CO2 capacity. While optimization of this dual-IL system is required, this feasibility study demonstrates that [P66614][Tetz] is a suitable sorbent for reversibly capturing SO2 and significantly extending the lifetime of [P66614][Benzim] for CO2 uptake.
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Combined Superbase Ionic Liquid Approach to Separate CO2 from Flue Gas
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type 2022 United Kingdom Publisher:American Chemical Society (ACS)Funded by:UKRI | Utilisation of Solar Ener...
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals
Authors: Adam J. Greer; S. F. Rebecca Taylor; Helen Daly; Johan Jacquemin; +1 Authors
Adam J. Greer; S. F. Rebecca Taylor; Helen Daly; Johan Jacquemin; Christopher Hardacre;
doi: 10.1021/acssuschemeng.2c01848
pmid: 35910293
pmc: PMC9326967
doi: 10.1021/acssuschemeng.2c01848
pmid: 35910293
pmc: PMC9326967
Superbase ionic liquids (ILs) with a trihexyltetradecylphosphonium cation and a benzimidazolide ([P66614][Benzim]) or tetrazolide ([P66614][Tetz]) anion were investigated in a dual-IL system allowing the selective capture and separation of CO2 and SO2, respectively, under realistic gas concentrations. The results show that [P66614][Tetz] is capable of efficiently capturing SO2 in preference to CO2 and thus, in a stepwise separation process, protects [P66614][Benzim] from the negative effects of the highly acidic contaminant. This results in [P66614][Benzim] maintaining >53% of its original CO2 uptake capacity after 30 absorption/desorption cycles in comparison to the 89% decrease observed after 11 cycles when [P66614][Tetz] was not present. Characterization of the ILs post exposure revealed that small amounts of SO2 were irreversibly absorbed to the [Benzim]- anion responsible for the decrease in CO2 capacity. While optimization of this dual-IL system is required, this feasibility study demonstrates that [P66614][Tetz] is a suitable sorbent for reversibly capturing SO2 and significantly extending the lifetime of [P66614][Benzim] for CO2 uptake.
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Urbanization and seasonality strengthens the CO2 capacity of the Red River Delta, Vietnam
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type 2022 Netherlands, United Kingdom, United Kingdom Publisher:IOP PublishingFunded by:UKRI | GCRF Living Deltas Hub
UKRI| GCRF Living Deltas Hub
Authors: Jorge Salgado; Duc Anh Trinh; Do Thu Nga; Virginia N. Panizzo; +7 Authors
Jorge Salgado; Duc Anh Trinh; Do Thu Nga; Virginia N. Panizzo; Adrian M. Bass; Ying Zheng; S. F. Rebecca Taylor; Lucy R. Roberts; Jack H. Lacey; Melanie J. Leng; Suzanne McGowan;
doi: 10.1088/1748-9326/ac9705 , 10.60692/ncsm6-s8622 , 10.60692/ygbqs-epf58
handle: 20.500.11755/2a2e7fb9-f9e9-40f0-bcd0-983dcb51cedb
doi: 10.1088/1748-9326/ac9705 , 10.60692/ncsm6-s8622 , 10.60692/ygbqs-epf58
handle: 20.500.11755/2a2e7fb9-f9e9-40f0-bcd0-983dcb51cedb
Abstract Tropical rivers are dynamic CO2 sources. Regional patterns in the partial pressure of CO2 (pCO2) and relationships with other a/biotic factors in densely populated and rapidly developing river delta regions of Southeast Asia are still poorly constrained. Over one year, at 21 sites across the river system in the Red River Delta (RRD), Vietnam, we calculated pCO2 levels from temperature, pH, and total alkalinity and inter-linkages between pCO2 and phytoplankton, water chemistry and seasonality were then assessed. The smaller, more urbanized, and polluted Day River had an annual median pCO2 of 5000 ± 3300 µatm and the larger Red River of 2675 ± 2271 µatm. pCO2 was 1.6 and 3.2 times higher during the dry season in the Day and Red rivers respectively than the rainy season. Elevated pCO2 levels in the Day River during the dry season were also 2.4-fold higher than the median value (2811 ± 3577 µatm) of calculated and direct pCO2 measurements in >20 sub/tropical rivers. By further categorizing the river data into Hanoi City vs. other less urban-populated provinces, we found significantly higher nutrients, organic matter content, and riverine cyanobacteria during the dry season in the Day River across Hanoi City. Forward selection also identified riverine cyanobacteria and river discharge as the main predictors explaining pCO2 variation in the RRD. After accounting for the shared effects (14%), river discharge alone significantly explained 12% of the pCO2 variation, cyanobacteria uniquely a further 21%, while 53% of the pCO2 variance was unexplained by either. We show that the urbanization of rivers deltas could result in increased sources of riverine pCO2, water pollution, and harmful cyanobacterial blooms. Such risks could be mitigated through water management to increase water flows in problem areas during the dry season.
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Urbanization and seasonality strengthens the CO2 capacity of the Red River Delta, Vietnam
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type 2022 Netherlands, United Kingdom, United Kingdom Publisher:IOP PublishingFunded by:UKRI | GCRF Living Deltas Hub
UKRI| GCRF Living Deltas Hub
Authors: Jorge Salgado; Duc Anh Trinh; Do Thu Nga; Virginia N. Panizzo; +7 Authors
Jorge Salgado; Duc Anh Trinh; Do Thu Nga; Virginia N. Panizzo; Adrian M. Bass; Ying Zheng; S. F. Rebecca Taylor; Lucy R. Roberts; Jack H. Lacey; Melanie J. Leng; Suzanne McGowan;
doi: 10.1088/1748-9326/ac9705 , 10.60692/ncsm6-s8622 , 10.60692/ygbqs-epf58
handle: 20.500.11755/2a2e7fb9-f9e9-40f0-bcd0-983dcb51cedb
doi: 10.1088/1748-9326/ac9705 , 10.60692/ncsm6-s8622 , 10.60692/ygbqs-epf58
handle: 20.500.11755/2a2e7fb9-f9e9-40f0-bcd0-983dcb51cedb
Abstract Tropical rivers are dynamic CO2 sources. Regional patterns in the partial pressure of CO2 (pCO2) and relationships with other a/biotic factors in densely populated and rapidly developing river delta regions of Southeast Asia are still poorly constrained. Over one year, at 21 sites across the river system in the Red River Delta (RRD), Vietnam, we calculated pCO2 levels from temperature, pH, and total alkalinity and inter-linkages between pCO2 and phytoplankton, water chemistry and seasonality were then assessed. The smaller, more urbanized, and polluted Day River had an annual median pCO2 of 5000 ± 3300 µatm and the larger Red River of 2675 ± 2271 µatm. pCO2 was 1.6 and 3.2 times higher during the dry season in the Day and Red rivers respectively than the rainy season. Elevated pCO2 levels in the Day River during the dry season were also 2.4-fold higher than the median value (2811 ± 3577 µatm) of calculated and direct pCO2 measurements in >20 sub/tropical rivers. By further categorizing the river data into Hanoi City vs. other less urban-populated provinces, we found significantly higher nutrients, organic matter content, and riverine cyanobacteria during the dry season in the Day River across Hanoi City. Forward selection also identified riverine cyanobacteria and river discharge as the main predictors explaining pCO2 variation in the RRD. After accounting for the shared effects (14%), river discharge alone significantly explained 12% of the pCO2 variation, cyanobacteria uniquely a further 21%, while 53% of the pCO2 variance was unexplained by either. We show that the urbanization of rivers deltas could result in increased sources of riverine pCO2, water pollution, and harmful cyanobacterial blooms. Such risks could be mitigated through water management to increase water flows in problem areas during the dry season.
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NERC Open Research A...arrow_drop_down
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Effects of heat treatment atmosphere on the structure and activity of Pt3Sn nanoparticle electrocatalysts: a characterisation case study
descriptionPublicationkeyboard_double_arrow_right Article , Conference object , Journal 2018 United Kingdom Publisher:Royal Society of Chemistry (RSC)Funded by:UKRI | University of Bristol - E..., UKRI | The UK Catalysis Hub, UKRI | Catalytic Science in the ... +4 projects
UKRI| University of Bristol - Equipment Account ,
UKRI| The UK Catalysis Hub ,
UKRI| Catalytic Science in the Harwell Research Centre ,
UKRI| The UK Catalysis Hub ,
UKRI| The UK Catalysis Hub ,
UKRI| Equipment to Underpin Internationally Leading Research at the University of Bristol ,
UKRI| The UK Catalysis Hub
Authors: Vinod Kumar Puthiyapura; Vinod Kumar Puthiyapura; Dan J. L. Brett; Haoliang Huang; +6 Authors
Vinod Kumar Puthiyapura; Vinod Kumar Puthiyapura; Dan J. L. Brett; Haoliang Huang; Abu Bakr Ahmed Amine Nassr; Andrea E. Russell; Christopher Hardacre; Christopher Hardacre; Veronica Celorrio; S. F. Rebecca Taylor;
doi: 10.1039/c7fd00221a
pmid: 29851419
handle: 1983/e4e756a4-b0e8-45c7-923b-d4c646a58811
doi: 10.1039/c7fd00221a
pmid: 29851419
handle: 1983/e4e756a4-b0e8-45c7-923b-d4c646a58811
In this work, a variation in heat treatment atmosphere approach is taken to provide a series of related PtSn catalysts with the same nominal composition of Pt3Sn, but with different surface compositions.
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e-Prints Soton
Article . 2018 . Peer-reviewed
Full-Text: https://eprints.soton.ac.uk/421733/1/Manuscript_NP_FD_with_template_26_10_2018.pdf
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e-Prints Soton
Article . 2018
License: CC BY
Full-Text: https://eprints.soton.ac.uk/421733/1/Manuscript_NP_FD_with_template_26_10_2018.pdf
Data sources: Bielefeld Academic Search Engine (BASE)
Faraday Discussions
Article . 2018 . Peer-reviewed
License: CC BY
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Explore Bristol Research
Article . 2018
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The University of Manchester - Institutional Repository
Article . 2018
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Article . 2018
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Article . 2019
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e-Prints Soton
Article . 2018 . Peer-reviewed
Full-Text: https://eprints.soton.ac.uk/421733/1/Manuscript_NP_FD_with_template_26_10_2018.pdf
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e-Prints Soton
Article . 2018
License: CC BY
Full-Text: https://eprints.soton.ac.uk/421733/1/Manuscript_NP_FD_with_template_26_10_2018.pdf
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Faraday Discussions
Article . 2018 . Peer-reviewed
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Article . 2018
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Article . 2018
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Article . 2018
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Article . 2019
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Effects of heat treatment atmosphere on the structure and activity of Pt3Sn nanoparticle electrocatalysts: a characterisation case study
descriptionPublicationkeyboard_double_arrow_right Article , Conference object , Journal 2018 United Kingdom Publisher:Royal Society of Chemistry (RSC)Funded by:UKRI | University of Bristol - E..., UKRI | The UK Catalysis Hub, UKRI | Catalytic Science in the ... +4 projects
UKRI| University of Bristol - Equipment Account ,
UKRI| The UK Catalysis Hub ,
UKRI| Catalytic Science in the Harwell Research Centre ,
UKRI| The UK Catalysis Hub ,
UKRI| The UK Catalysis Hub ,
UKRI| Equipment to Underpin Internationally Leading Research at the University of Bristol ,
UKRI| The UK Catalysis Hub
Authors: Vinod Kumar Puthiyapura; Vinod Kumar Puthiyapura; Dan J. L. Brett; Haoliang Huang; +6 Authors
Vinod Kumar Puthiyapura; Vinod Kumar Puthiyapura; Dan J. L. Brett; Haoliang Huang; Abu Bakr Ahmed Amine Nassr; Andrea E. Russell; Christopher Hardacre; Christopher Hardacre; Veronica Celorrio; S. F. Rebecca Taylor;
doi: 10.1039/c7fd00221a
pmid: 29851419
handle: 1983/e4e756a4-b0e8-45c7-923b-d4c646a58811
doi: 10.1039/c7fd00221a
pmid: 29851419
handle: 1983/e4e756a4-b0e8-45c7-923b-d4c646a58811
In this work, a variation in heat treatment atmosphere approach is taken to provide a series of related PtSn catalysts with the same nominal composition of Pt3Sn, but with different surface compositions.
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e-Prints Sotonarrow_drop_down
e-Prints Soton
Article . 2018 . Peer-reviewed
Full-Text: https://eprints.soton.ac.uk/421733/1/Manuscript_NP_FD_with_template_26_10_2018.pdf
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e-Prints Soton
Article . 2018
License: CC BY
Full-Text: https://eprints.soton.ac.uk/421733/1/Manuscript_NP_FD_with_template_26_10_2018.pdf
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Faraday Discussions
Article . 2018 . Peer-reviewed
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Explore Bristol Research
Article . 2018
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Article . 2018
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Article . 2018
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Faraday Discussions
Article . 2019
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e-Prints Soton
Article . 2018 . Peer-reviewed
Full-Text: https://eprints.soton.ac.uk/421733/1/Manuscript_NP_FD_with_template_26_10_2018.pdf
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e-Prints Soton
Article . 2018
License: CC BY
Full-Text: https://eprints.soton.ac.uk/421733/1/Manuscript_NP_FD_with_template_26_10_2018.pdf
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Faraday Discussions
Article . 2018 . Peer-reviewed
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Explore Bristol Research
Article . 2018
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Article . 2018
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University of Bristol: Bristol Research
Article . 2018
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Faraday Discussions
Article . 2019
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Understanding the Competitive Gas Absorption of CO2 and SO2 in Superbase Ionic Liquids
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2018 United Kingdom, France Publisher:American Chemical Society (ACS)Funded by:UKRI | A Coordinated, Comprehens..., UKRI | Utilisation of Solar Ener...
UKRI| A Coordinated, Comprehensive approach to Carbon Capture and Utilisation ,
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals
Authors: Johan Jacquemin; Johan Jacquemin; Adam J. Greer; Matthew McClung; +4 Authors
Johan Jacquemin; Johan Jacquemin; Adam J. Greer; Matthew McClung; Ciaran McReynolds; S. F. Rebecca Taylor; Christopher Hardacre; Helen Daly;
doi: 10.1021/acs.iecr.8b03623
doi: 10.1021/acs.iecr.8b03623
During this work, an original study of the CO2 and SO2 competitive gas absorption in three superbase ionic liquids (ILs), namely, trihexyltetradecylphosphonium 1,2,4-triazolide ([P66614][124Triz]), and trihexyltetradecylphoshonium benzimidazolide ([P66614][Benzim]), is reported for the first time. To initiate such a comprehensive study, the CO2 and SO2 mixed gas solubility in selected ILs was determined by using an original and accurate dynamic method coupled with mass spectrometry after several absorption and desorption cycles. This method has been validated by comparing the gravimetric uptake of CO2 with the mass spectrometry data using trihexyltetradecylphosphonium benzotriazolide, 1,2,4-triazolide, and benzimidazolide ILs and shown to be consistent within 10% in mole ratio units. Solubility results clearly show that the presence of SO2 in the gas stream decreases the CO2 capture capability of the investigated ILs. Furthermore, the viscosity, chemical analysis (water content and sulfur content), and sp...
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Industrial & Engineering Chemistry Research
Article . 2018 . Peer-reviewed
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Article . 2018
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Article . 2018
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Article . 2018
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Article . 2018
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Article . 2018 . Peer-reviewed
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Article . 2018
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Article . 2018
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Understanding the Competitive Gas Absorption of CO2 and SO2 in Superbase Ionic Liquids
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2018 United Kingdom, France Publisher:American Chemical Society (ACS)Funded by:UKRI | A Coordinated, Comprehens..., UKRI | Utilisation of Solar Ener...
UKRI| A Coordinated, Comprehensive approach to Carbon Capture and Utilisation ,
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals
Authors: Johan Jacquemin; Johan Jacquemin; Adam J. Greer; Matthew McClung; +4 Authors
Johan Jacquemin; Johan Jacquemin; Adam J. Greer; Matthew McClung; Ciaran McReynolds; S. F. Rebecca Taylor; Christopher Hardacre; Helen Daly;
doi: 10.1021/acs.iecr.8b03623
doi: 10.1021/acs.iecr.8b03623
During this work, an original study of the CO2 and SO2 competitive gas absorption in three superbase ionic liquids (ILs), namely, trihexyltetradecylphosphonium 1,2,4-triazolide ([P66614][124Triz]), and trihexyltetradecylphoshonium benzimidazolide ([P66614][Benzim]), is reported for the first time. To initiate such a comprehensive study, the CO2 and SO2 mixed gas solubility in selected ILs was determined by using an original and accurate dynamic method coupled with mass spectrometry after several absorption and desorption cycles. This method has been validated by comparing the gravimetric uptake of CO2 with the mass spectrometry data using trihexyltetradecylphosphonium benzotriazolide, 1,2,4-triazolide, and benzimidazolide ILs and shown to be consistent within 10% in mole ratio units. Solubility results clearly show that the presence of SO2 in the gas stream decreases the CO2 capture capability of the investigated ILs. Furthermore, the viscosity, chemical analysis (water content and sulfur content), and sp...
Industrial & Enginee...arrow_drop_down
Industrial & Engineering Chemistry Research
Article . 2018 . Peer-reviewed
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Factors affecting bubble size in ionic liquids
descriptionPublicationkeyboard_double_arrow_right Article , Conference object , Journal 2017 France, United Kingdom Publisher:Royal Society of Chemistry (RSC)Funded by:UKRI | Utilisation of Solar Ener..., UKRI | A Coordinated, Comprehens...
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals ,
UKRI| A Coordinated, Comprehensive approach to Carbon Capture and Utilisation
Authors: William A. Zimmerman; Stuart A. Brittle; Sarah F. R. Taylor; Sarah F. R. Taylor; +5 Authors
William A. Zimmerman; Stuart A. Brittle; Sarah F. R. Taylor; Sarah F. R. Taylor; Johan Jacquemin; Johan Jacquemin; Pratik Desai; Christopher Hardacre; Christopher Hardacre;
doi: 10.1039/c7cp01725a
pmid: 28537605
doi: 10.1039/c7cp01725a
pmid: 28537605
Bubble behaviour of 11 ionic liquids was studied and the relationship of bubble size, physical properties and structure was examined.
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Article . 2017
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Article . 2017
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Article . 2017
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Article . 2017
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Article . 2017
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Article . 2017
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Factors affecting bubble size in ionic liquids
descriptionPublicationkeyboard_double_arrow_right Article , Conference object , Journal 2017 France, United Kingdom Publisher:Royal Society of Chemistry (RSC)Funded by:UKRI | Utilisation of Solar Ener..., UKRI | A Coordinated, Comprehens...
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals ,
UKRI| A Coordinated, Comprehensive approach to Carbon Capture and Utilisation
Authors: William A. Zimmerman; Stuart A. Brittle; Sarah F. R. Taylor; Sarah F. R. Taylor; +5 Authors
William A. Zimmerman; Stuart A. Brittle; Sarah F. R. Taylor; Sarah F. R. Taylor; Johan Jacquemin; Johan Jacquemin; Pratik Desai; Christopher Hardacre; Christopher Hardacre;
doi: 10.1039/c7cp01725a
pmid: 28537605
doi: 10.1039/c7cp01725a
pmid: 28537605
Bubble behaviour of 11 ionic liquids was studied and the relationship of bubble size, physical properties and structure was examined.
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COREarrow_drop_down
CORE
Article . 2017
License: CC BY
Full-Text: https://eprints.whiterose.ac.uk/117115/1/c7cp01725a.pdf
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Article . 2017
License: CC BY
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Physical Chemistry Chemical Physics
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Queen's University Research Portal
Article . 2017
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Article . 2017
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Article . 2017
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Article . 2017
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Queen's University Belfast Research Portal
Article . 2017
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HAL Université de Tours
Article . 2017
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Physical Chemistry Chemical Physics
Article . 2017 . Peer-reviewed
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Article . 2018
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Article . 2017
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How to go beyond C1 products with electrochemical reduction of CO2
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UKRI| Flexible Routes to Liquid Fuels from CO2 by Advanced Catalysis and Engineering ,
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How to go beyond C1 products with electrochemical reduction of CO2
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2021 France Publisher:Royal Society of Chemistry (RSC)Funded by:UKRI | Flexible Routes to Liquid..., UKRI | Liquid Fuel and bioEnergy..., UKRI | UKRI Interdisciplinary Ce... +2 projects
UKRI| Flexible Routes to Liquid Fuels from CO2 by Advanced Catalysis and Engineering ,
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doi: 10.1039/d1se00861g
doi: 10.1039/d1se00861g
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Using lake sediments to assess the long-term impacts of anthropogenic activity in tropical river deltas
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Review 2023 United Kingdom, Netherlands, United Kingdom, United Kingdom Publisher:SAGE PublicationsFunded by:UKRI | GCRF Living Deltas Hub
UKRI| GCRF Living Deltas Hub
Authors: Richard E. Walton; Heather Moorhouse; Lucy R. Roberts; Jorge Salgado; +9 Authors
Richard E. Walton; Heather Moorhouse; Lucy R. Roberts; Jorge Salgado; Cai Ladd; Thu Nga; Virginia N. Panizzo; Phạm Đăng Trí Văn; Nigel K. Downes; Duc Anh Trinh; Suzanne McGowan; S. F. Rebecca Taylor; Andrew C. G. Henderson;
doi: 10.1177/20530196231204334 , 10.60692/h7teh-1b055 , 10.60692/hq28v-61t17
pmid: 39156121
pmc: PMC11324390
handle: 20.500.11755/e7bb944e-73af-4112-a5e8-ff134b2ea612
doi: 10.1177/20530196231204334 , 10.60692/h7teh-1b055 , 10.60692/hq28v-61t17
pmid: 39156121
pmc: PMC11324390
handle: 20.500.11755/e7bb944e-73af-4112-a5e8-ff134b2ea612
Tropical river deltas, and the social-ecological systems they sustain, are changing rapidly due to anthropogenic activity and climatic change. Baseline data to inform sustainable management options for resilient deltas is urgently needed and palaeolimnology (reconstructing past conditions from lake or wetland deposits) can provide crucial long-term perspectives needed to identify drivers and rates of change. We review how palaeolimnology can be a valuable tool for resource managers using three current issues facing tropical delta regions: hydrology and sediment supply, salinisation and nutrient pollution. The unique ability of palaeolimnological methods to untangle multiple stressors is also discussed. We demonstrate how palaeolimnology has been used to understand each of these issues, in other aquatic environments, to be incorporated into policy. Palaeolimnology is a key tool to understanding how anthropogenic influences interact with other environmental stressors, providing policymakers and resource managers with a ‘big picture’ view and possible holistic solutions that can be implemented.
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Using lake sediments to assess the long-term impacts of anthropogenic activity in tropical river deltas
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Review 2023 United Kingdom, Netherlands, United Kingdom, United Kingdom Publisher:SAGE PublicationsFunded by:UKRI | GCRF Living Deltas Hub
UKRI| GCRF Living Deltas Hub
Authors: Richard E. Walton; Heather Moorhouse; Lucy R. Roberts; Jorge Salgado; +9 Authors
Richard E. Walton; Heather Moorhouse; Lucy R. Roberts; Jorge Salgado; Cai Ladd; Thu Nga; Virginia N. Panizzo; Phạm Đăng Trí Văn; Nigel K. Downes; Duc Anh Trinh; Suzanne McGowan; S. F. Rebecca Taylor; Andrew C. G. Henderson;
doi: 10.1177/20530196231204334 , 10.60692/h7teh-1b055 , 10.60692/hq28v-61t17
pmid: 39156121
pmc: PMC11324390
handle: 20.500.11755/e7bb944e-73af-4112-a5e8-ff134b2ea612
doi: 10.1177/20530196231204334 , 10.60692/h7teh-1b055 , 10.60692/hq28v-61t17
pmid: 39156121
pmc: PMC11324390
handle: 20.500.11755/e7bb944e-73af-4112-a5e8-ff134b2ea612
Tropical river deltas, and the social-ecological systems they sustain, are changing rapidly due to anthropogenic activity and climatic change. Baseline data to inform sustainable management options for resilient deltas is urgently needed and palaeolimnology (reconstructing past conditions from lake or wetland deposits) can provide crucial long-term perspectives needed to identify drivers and rates of change. We review how palaeolimnology can be a valuable tool for resource managers using three current issues facing tropical delta regions: hydrology and sediment supply, salinisation and nutrient pollution. The unique ability of palaeolimnological methods to untangle multiple stressors is also discussed. We demonstrate how palaeolimnology has been used to understand each of these issues, in other aquatic environments, to be incorporated into policy. Palaeolimnology is a key tool to understanding how anthropogenic influences interact with other environmental stressors, providing policymakers and resource managers with a ‘big picture’ view and possible holistic solutions that can be implemented.
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Combined Experimental and Theoretical Study of the Competitive Absorption of CO2 and NO2 by a Superbase Ionic Liquid
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2021 United Kingdom Publisher:American Chemical Society (ACS)Funded by:UKRI | The UK Catalysis Hub - 'S..., UKRI | Biocatalysis & Biotra..., UKRI | Utilisation of Solar Ener...
UKRI| The UK Catalysis Hub - 'Science': 1 - Optimising, predicting and designing new Catalysts ,
UKRI| Biocatalysis & Biotransformation: A 5th Theme for the National Catalysis Hub ,
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals
Authors: C. Richard A. Catlow; Johan Jacquemin; Matthew G. Quesne; Matthew G. Quesne; +6 Authors
C. Richard A. Catlow; Johan Jacquemin; Matthew G. Quesne; Matthew G. Quesne; Adam J. Greer; S. F. Rebecca Taylor; Christopher Hardacre; Helen Daly; Nora H. de Leeuw; Nora H. de Leeuw;
doi: 10.1021/acssuschemeng.1c01451
pmid: 34306836
pmc: PMC8296676
doi: 10.1021/acssuschemeng.1c01451
pmid: 34306836
pmc: PMC8296676
A superbase ionic liquid (IL), trihexyltetradecylphosphonium benzimidazolide ([P66614][Benzim]), is investigated for the capture of CO2 in the presence of NO2 impurities. The effect of the waste gas stream contaminant on the ability of the IL to absorb simultaneously CO2 is demonstrated using novel measurement techniques, including a mass spectrometry breakthrough method and in situ infrared spectroscopy. The findings show that the presence of an industrially relevant concentration of NO2 in a combined feed with CO2 has the effect of reducing the capacity of the IL to absorb CO2 efficiently by ∼60% after 10 absorption-desorption cycles. This finding is supported by physical property analysis (viscosity, 1H and 13C NMR, and X-ray photoelectron spectroscopy) and spectroscopic infrared characterization, in addition to density functional theory (DFT) calculations, to determine the structure of the IL-NO2 complex. The results are presented in comparison with another flue gas component, NO, demonstrating that the absorption of NO2 is more favorable, thereby hindering the ability of the IL to absorb CO2. Significantly, this work aids understanding of the effects that individual components of flue gas have on CO2 capture sorbents, through studying a contaminant that has received limited interest previously.
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Combined Experimental and Theoretical Study of the Competitive Absorption of CO2 and NO2 by a Superbase Ionic Liquid
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2021 United Kingdom Publisher:American Chemical Society (ACS)Funded by:UKRI | The UK Catalysis Hub - 'S..., UKRI | Biocatalysis & Biotra..., UKRI | Utilisation of Solar Ener...
UKRI| The UK Catalysis Hub - 'Science': 1 - Optimising, predicting and designing new Catalysts ,
UKRI| Biocatalysis & Biotransformation: A 5th Theme for the National Catalysis Hub ,
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals
Authors: C. Richard A. Catlow; Johan Jacquemin; Matthew G. Quesne; Matthew G. Quesne; +6 Authors
C. Richard A. Catlow; Johan Jacquemin; Matthew G. Quesne; Matthew G. Quesne; Adam J. Greer; S. F. Rebecca Taylor; Christopher Hardacre; Helen Daly; Nora H. de Leeuw; Nora H. de Leeuw;
doi: 10.1021/acssuschemeng.1c01451
pmid: 34306836
pmc: PMC8296676
doi: 10.1021/acssuschemeng.1c01451
pmid: 34306836
pmc: PMC8296676
A superbase ionic liquid (IL), trihexyltetradecylphosphonium benzimidazolide ([P66614][Benzim]), is investigated for the capture of CO2 in the presence of NO2 impurities. The effect of the waste gas stream contaminant on the ability of the IL to absorb simultaneously CO2 is demonstrated using novel measurement techniques, including a mass spectrometry breakthrough method and in situ infrared spectroscopy. The findings show that the presence of an industrially relevant concentration of NO2 in a combined feed with CO2 has the effect of reducing the capacity of the IL to absorb CO2 efficiently by ∼60% after 10 absorption-desorption cycles. This finding is supported by physical property analysis (viscosity, 1H and 13C NMR, and X-ray photoelectron spectroscopy) and spectroscopic infrared characterization, in addition to density functional theory (DFT) calculations, to determine the structure of the IL-NO2 complex. The results are presented in comparison with another flue gas component, NO, demonstrating that the absorption of NO2 is more favorable, thereby hindering the ability of the IL to absorb CO2. Significantly, this work aids understanding of the effects that individual components of flue gas have on CO2 capture sorbents, through studying a contaminant that has received limited interest previously.
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Arc Synthesis, Crystal Structure, and Photoelectrochemistry of Copper(I) Tungstate
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2021 Netherlands, United Kingdom Publisher:American Chemical Society (ACS)Funded by:UKRI | Utilisation of Solar Ener..., NWO | Earth-abundant materials ...
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals ,
NWO| Earth-abundant materials for the sustainable catalysis of CO2 to fuels and chemicals: Linking computation to experiment
Authors: Miguel T. Galante; S. F. Rebecca Taylor; Adam J. Greer; Aleksandar Živković; +11 Authors
Miguel T. Galante; S. F. Rebecca Taylor; Adam J. Greer; Aleksandar Živković; Nora H. de Leeuw; Nora H. de Leeuw; Cinthia Cristina Calchi Kleiner; Krishnan Rajeshwar; Rodnei Bertazzoli; Márcio Sangali; Christopher Hardacre; Jéssica Costa Alvim; Rubens Caram; Robin T. Macaluso; Claudia Longo;
doi: 10.1021/acsami.1c03928
pmid: 34251184
pmc: PMC8311641
doi: 10.1021/acsami.1c03928
pmid: 34251184
pmc: PMC8311641
A little-studied p-type ternary oxide semiconductor, copper(I) tungstate (Cu2WO4), was assessed by a combined theoretical/experimental approach. A detailed computational study was performed to solve the long-standing debate on the space group of Cu2WO4, which was determined to be triclinic P1. Cu2WO4 was synthesized by a time-efficient, arc-melting method, and the crystalline reddish particulate product showed broad-band absorption in the UV-visible spectral region, thermal stability up to ∼260 °C, and cathodic photoelectrochemical activity. Controlled thermal oxidation of copper from the Cu(I) to Cu(II) oxidation state showed that the crystal lattice could accommodate Cu2+ cations up to ∼260 °C, beyond which the compound was converted to CuO and CuWO4. This process was monitored by powder X-ray diffraction and X-ray photoelectron spectroscopy. The electronic band structure of Cu2WO4 was contrasted with that of the Cu(II) counterpart, CuWO4 using spin-polarized density functional theory (DFT). Finally, the compound Cu2WO4 was determined to have a high-lying (negative potential) conduction band edge underlining its promise for driving energetic photoredox reactions.
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Arc Synthesis, Crystal Structure, and Photoelectrochemistry of Copper(I) Tungstate
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2021 Netherlands, United Kingdom Publisher:American Chemical Society (ACS)Funded by:UKRI | Utilisation of Solar Ener..., NWO | Earth-abundant materials ...
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals ,
NWO| Earth-abundant materials for the sustainable catalysis of CO2 to fuels and chemicals: Linking computation to experiment
Authors: Miguel T. Galante; S. F. Rebecca Taylor; Adam J. Greer; Aleksandar Živković; +11 Authors
Miguel T. Galante; S. F. Rebecca Taylor; Adam J. Greer; Aleksandar Živković; Nora H. de Leeuw; Nora H. de Leeuw; Cinthia Cristina Calchi Kleiner; Krishnan Rajeshwar; Rodnei Bertazzoli; Márcio Sangali; Christopher Hardacre; Jéssica Costa Alvim; Rubens Caram; Robin T. Macaluso; Claudia Longo;
doi: 10.1021/acsami.1c03928
pmid: 34251184
pmc: PMC8311641
doi: 10.1021/acsami.1c03928
pmid: 34251184
pmc: PMC8311641
A little-studied p-type ternary oxide semiconductor, copper(I) tungstate (Cu2WO4), was assessed by a combined theoretical/experimental approach. A detailed computational study was performed to solve the long-standing debate on the space group of Cu2WO4, which was determined to be triclinic P1. Cu2WO4 was synthesized by a time-efficient, arc-melting method, and the crystalline reddish particulate product showed broad-band absorption in the UV-visible spectral region, thermal stability up to ∼260 °C, and cathodic photoelectrochemical activity. Controlled thermal oxidation of copper from the Cu(I) to Cu(II) oxidation state showed that the crystal lattice could accommodate Cu2+ cations up to ∼260 °C, beyond which the compound was converted to CuO and CuWO4. This process was monitored by powder X-ray diffraction and X-ray photoelectron spectroscopy. The electronic band structure of Cu2WO4 was contrasted with that of the Cu(II) counterpart, CuWO4 using spin-polarized density functional theory (DFT). Finally, the compound Cu2WO4 was determined to have a high-lying (negative potential) conduction band edge underlining its promise for driving energetic photoredox reactions.
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Investigating the Effect of NO on the Capture of CO2 Using Superbase Ionic Liquids for Flue Gas Applications
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2019 United Kingdom, France Publisher:American Chemical Society (ACS)Funded by:UKRI | Utilisation of Solar Ener...
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals
Authors: Adam J. Greer; S. F. Rebecca Taylor; Helen Daly; Matthew Quesne; +3 Authors
Adam J. Greer; S. F. Rebecca Taylor; Helen Daly; Matthew Quesne; C. Richard A. Catlow; Johan Jacquemin; Christopher Hardacre;
doi: 10.1021/acssuschemeng.8b05870
doi: 10.1021/acssuschemeng.8b05870
The effect of acidic gases present in flue gas, specifically NO, on the capture of CO2 by the superbase ionic liquid, trihexyltetradecylphosphonium benzimidazolide ([P66614][Benzim]), is reported. An online mass spectrometry technique was utilized to study the CO2 uptake of the ionic liquid during multiple absorption and desorption cycles of a gas feed containing NO and CO2 at realistic flue gas concentrations, and it was found that while NO alone could bind irreversibly, the CO2 capacity of the IL was largely unaffected by the presence of NO in a cofeed of the gases. In situ attenuated total reflection infrared was employed to probe the competitive absorption of CO2 and NO by [P66614][Benzim], in which carbamate and NONOate species were observed to cobind to different sites of the benzimidazolide anion. These effects were further characterized by analyzing changes in physical properties (viscosity and nitrogen content) and other spectroscopic changes (1H NMR, 13C NMR and XPS). Density functional theory c...
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Investigating the Effect of NO on the Capture of CO2 Using Superbase Ionic Liquids for Flue Gas Applications
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2019 United Kingdom, France Publisher:American Chemical Society (ACS)Funded by:UKRI | Utilisation of Solar Ener...
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals
Authors: Adam J. Greer; S. F. Rebecca Taylor; Helen Daly; Matthew Quesne; +3 Authors
Adam J. Greer; S. F. Rebecca Taylor; Helen Daly; Matthew Quesne; C. Richard A. Catlow; Johan Jacquemin; Christopher Hardacre;
doi: 10.1021/acssuschemeng.8b05870
doi: 10.1021/acssuschemeng.8b05870
The effect of acidic gases present in flue gas, specifically NO, on the capture of CO2 by the superbase ionic liquid, trihexyltetradecylphosphonium benzimidazolide ([P66614][Benzim]), is reported. An online mass spectrometry technique was utilized to study the CO2 uptake of the ionic liquid during multiple absorption and desorption cycles of a gas feed containing NO and CO2 at realistic flue gas concentrations, and it was found that while NO alone could bind irreversibly, the CO2 capacity of the IL was largely unaffected by the presence of NO in a cofeed of the gases. In situ attenuated total reflection infrared was employed to probe the competitive absorption of CO2 and NO by [P66614][Benzim], in which carbamate and NONOate species were observed to cobind to different sites of the benzimidazolide anion. These effects were further characterized by analyzing changes in physical properties (viscosity and nitrogen content) and other spectroscopic changes (1H NMR, 13C NMR and XPS). Density functional theory c...
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Combined Superbase Ionic Liquid Approach to Separate CO2 from Flue Gas
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type 2022 United Kingdom Publisher:American Chemical Society (ACS)Funded by:UKRI | Utilisation of Solar Ener...
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals
Authors: Adam J. Greer; S. F. Rebecca Taylor; Helen Daly; Johan Jacquemin; +1 Authors
Adam J. Greer; S. F. Rebecca Taylor; Helen Daly; Johan Jacquemin; Christopher Hardacre;
doi: 10.1021/acssuschemeng.2c01848
pmid: 35910293
pmc: PMC9326967
doi: 10.1021/acssuschemeng.2c01848
pmid: 35910293
pmc: PMC9326967
Superbase ionic liquids (ILs) with a trihexyltetradecylphosphonium cation and a benzimidazolide ([P66614][Benzim]) or tetrazolide ([P66614][Tetz]) anion were investigated in a dual-IL system allowing the selective capture and separation of CO2 and SO2, respectively, under realistic gas concentrations. The results show that [P66614][Tetz] is capable of efficiently capturing SO2 in preference to CO2 and thus, in a stepwise separation process, protects [P66614][Benzim] from the negative effects of the highly acidic contaminant. This results in [P66614][Benzim] maintaining >53% of its original CO2 uptake capacity after 30 absorption/desorption cycles in comparison to the 89% decrease observed after 11 cycles when [P66614][Tetz] was not present. Characterization of the ILs post exposure revealed that small amounts of SO2 were irreversibly absorbed to the [Benzim]- anion responsible for the decrease in CO2 capacity. While optimization of this dual-IL system is required, this feasibility study demonstrates that [P66614][Tetz] is a suitable sorbent for reversibly capturing SO2 and significantly extending the lifetime of [P66614][Benzim] for CO2 uptake.
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Combined Superbase Ionic Liquid Approach to Separate CO2 from Flue Gas
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type 2022 United Kingdom Publisher:American Chemical Society (ACS)Funded by:UKRI | Utilisation of Solar Ener...
UKRI| Utilisation of Solar Energy and Electrocatalytic Processes for the Low Energy Conversion of CO2 to Fuels and Chemicals
Authors: Adam J. Greer; S. F. Rebecca Taylor; Helen Daly; Johan Jacquemin; +1 Authors
Adam J. Greer; S. F. Rebecca Taylor; Helen Daly; Johan Jacquemin; Christopher Hardacre;
doi: 10.1021/acssuschemeng.2c01848
pmid: 35910293
pmc: PMC9326967
doi: 10.1021/acssuschemeng.2c01848
pmid: 35910293
pmc: PMC9326967
Superbase ionic liquids (ILs) with a trihexyltetradecylphosphonium cation and a benzimidazolide ([P66614][Benzim]) or tetrazolide ([P66614][Tetz]) anion were investigated in a dual-IL system allowing the selective capture and separation of CO2 and SO2, respectively, under realistic gas concentrations. The results show that [P66614][Tetz] is capable of efficiently capturing SO2 in preference to CO2 and thus, in a stepwise separation process, protects [P66614][Benzim] from the negative effects of the highly acidic contaminant. This results in [P66614][Benzim] maintaining >53% of its original CO2 uptake capacity after 30 absorption/desorption cycles in comparison to the 89% decrease observed after 11 cycles when [P66614][Tetz] was not present. Characterization of the ILs post exposure revealed that small amounts of SO2 were irreversibly absorbed to the [Benzim]- anion responsible for the decrease in CO2 capacity. While optimization of this dual-IL system is required, this feasibility study demonstrates that [P66614][Tetz] is a suitable sorbent for reversibly capturing SO2 and significantly extending the lifetime of [P66614][Benzim] for CO2 uptake.
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Urbanization and seasonality strengthens the CO2 capacity of the Red River Delta, Vietnam
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type 2022 Netherlands, United Kingdom, United Kingdom Publisher:IOP PublishingFunded by:UKRI | GCRF Living Deltas Hub
UKRI| GCRF Living Deltas Hub
Authors: Jorge Salgado; Duc Anh Trinh; Do Thu Nga; Virginia N. Panizzo; +7 Authors
Jorge Salgado; Duc Anh Trinh; Do Thu Nga; Virginia N. Panizzo; Adrian M. Bass; Ying Zheng; S. F. Rebecca Taylor; Lucy R. Roberts; Jack H. Lacey; Melanie J. Leng; Suzanne McGowan;
doi: 10.1088/1748-9326/ac9705 , 10.60692/ncsm6-s8622 , 10.60692/ygbqs-epf58
handle: 20.500.11755/2a2e7fb9-f9e9-40f0-bcd0-983dcb51cedb
doi: 10.1088/1748-9326/ac9705 , 10.60692/ncsm6-s8622 , 10.60692/ygbqs-epf58
handle: 20.500.11755/2a2e7fb9-f9e9-40f0-bcd0-983dcb51cedb
Abstract Tropical rivers are dynamic CO2 sources. Regional patterns in the partial pressure of CO2 (pCO2) and relationships with other a/biotic factors in densely populated and rapidly developing river delta regions of Southeast Asia are still poorly constrained. Over one year, at 21 sites across the river system in the Red River Delta (RRD), Vietnam, we calculated pCO2 levels from temperature, pH, and total alkalinity and inter-linkages between pCO2 and phytoplankton, water chemistry and seasonality were then assessed. The smaller, more urbanized, and polluted Day River had an annual median pCO2 of 5000 ± 3300 µatm and the larger Red River of 2675 ± 2271 µatm. pCO2 was 1.6 and 3.2 times higher during the dry season in the Day and Red rivers respectively than the rainy season. Elevated pCO2 levels in the Day River during the dry season were also 2.4-fold higher than the median value (2811 ± 3577 µatm) of calculated and direct pCO2 measurements in >20 sub/tropical rivers. By further categorizing the river data into Hanoi City vs. other less urban-populated provinces, we found significantly higher nutrients, organic matter content, and riverine cyanobacteria during the dry season in the Day River across Hanoi City. Forward selection also identified riverine cyanobacteria and river discharge as the main predictors explaining pCO2 variation in the RRD. After accounting for the shared effects (14%), river discharge alone significantly explained 12% of the pCO2 variation, cyanobacteria uniquely a further 21%, while 53% of the pCO2 variance was unexplained by either. We show that the urbanization of rivers deltas could result in increased sources of riverine pCO2, water pollution, and harmful cyanobacterial blooms. Such risks could be mitigated through water management to increase water flows in problem areas during the dry season.
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Urbanization and seasonality strengthens the CO2 capacity of the Red River Delta, Vietnam
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type 2022 Netherlands, United Kingdom, United Kingdom Publisher:IOP PublishingFunded by:UKRI | GCRF Living Deltas Hub
UKRI| GCRF Living Deltas Hub
Authors: Jorge Salgado; Duc Anh Trinh; Do Thu Nga; Virginia N. Panizzo; +7 Authors
Jorge Salgado; Duc Anh Trinh; Do Thu Nga; Virginia N. Panizzo; Adrian M. Bass; Ying Zheng; S. F. Rebecca Taylor; Lucy R. Roberts; Jack H. Lacey; Melanie J. Leng; Suzanne McGowan;
doi: 10.1088/1748-9326/ac9705 , 10.60692/ncsm6-s8622 , 10.60692/ygbqs-epf58
handle: 20.500.11755/2a2e7fb9-f9e9-40f0-bcd0-983dcb51cedb
doi: 10.1088/1748-9326/ac9705 , 10.60692/ncsm6-s8622 , 10.60692/ygbqs-epf58
handle: 20.500.11755/2a2e7fb9-f9e9-40f0-bcd0-983dcb51cedb
Abstract Tropical rivers are dynamic CO2 sources. Regional patterns in the partial pressure of CO2 (pCO2) and relationships with other a/biotic factors in densely populated and rapidly developing river delta regions of Southeast Asia are still poorly constrained. Over one year, at 21 sites across the river system in the Red River Delta (RRD), Vietnam, we calculated pCO2 levels from temperature, pH, and total alkalinity and inter-linkages between pCO2 and phytoplankton, water chemistry and seasonality were then assessed. The smaller, more urbanized, and polluted Day River had an annual median pCO2 of 5000 ± 3300 µatm and the larger Red River of 2675 ± 2271 µatm. pCO2 was 1.6 and 3.2 times higher during the dry season in the Day and Red rivers respectively than the rainy season. Elevated pCO2 levels in the Day River during the dry season were also 2.4-fold higher than the median value (2811 ± 3577 µatm) of calculated and direct pCO2 measurements in >20 sub/tropical rivers. By further categorizing the river data into Hanoi City vs. other less urban-populated provinces, we found significantly higher nutrients, organic matter content, and riverine cyanobacteria during the dry season in the Day River across Hanoi City. Forward selection also identified riverine cyanobacteria and river discharge as the main predictors explaining pCO2 variation in the RRD. After accounting for the shared effects (14%), river discharge alone significantly explained 12% of the pCO2 variation, cyanobacteria uniquely a further 21%, while 53% of the pCO2 variance was unexplained by either. We show that the urbanization of rivers deltas could result in increased sources of riverine pCO2, water pollution, and harmful cyanobacterial blooms. Such risks could be mitigated through water management to increase water flows in problem areas during the dry season.
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	popularity	Top 10%
	influence	Average
	impulse	Top 10%

	Green
	hybrid

	citations	14
	popularity	Top 10%
	influence	Average
	impulse	Top 10%

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Energy Research