• Energy Research
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• Electrochimica Acta close

In the last few years, the in situ H2O2 electrogeneration through the 2e- oxygen reduction reaction (ORR)pathway has increasingly intrigued the scientific community. In particular, a wide experimental campaign hasaddressed the synthesis of different carbonaceous cathodes. This has resulted in a high number of 2D and 3Dcathode materials, either pristine or modified, whose ability to electrogenerate H2O2 in an efficient manner hasbeen tested in different types of electrochemical reactors. Although there is some experimental work correlatingthe properties of cathode materials with the H2O2 production efficiency, there is no systematic study on thissubject. The purpose of this critical review, which is focused on the literature published within the period 2010-2022, is to elucidate the role of the interfacial properties of carbonaceous cathodes in this field. These cathodescan be classified in two categories according to their structure (i.e., crystalline and fibrous), and in five subcategories:reticulated vitreous carbon (RVC), graphite, carbon felt, graphite felt and gas-diffusion electrode(GDE). These categories are briefly introduced and the performance of materials is compared. Additionally theirinterfacial properties (hydrophilicity/hydrophobicity, O 1s/C 1s ratio, pore size and specific surface area) areanalyzed, trying to show their influence on the cathode performance in terms of current efficiency. The durabilityof the cathodes is also examined, along with density functional theory (DFT) studies conducted for the 2e- ORR.Finally, general conclusions and recommendations for future research are presented.