Synthesis,characterization and life cycle assessment of electrochemically exfoliated KOH-activated holey graphene  

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作  者:Fatemeh Mozaffarpour Nafiseh Hassanzadeh Ehsan Vahidi 

机构地区:[1]Faculty of Materials Science and Engineering,K.N.Toosi University of Technology,Tehran 1969764499,Iran [2]Department of Mining and Metallurgical Engineering,Mackay School of Earth Sciences and Engineering,University of Nevada,Reno,NV 89557,USA

出  处:《Frontiers of Environmental Science & Engineering》2023年第12期175-188,共14页环境科学与工程前沿(英文)

摘  要:Graphene materials have drawn tremendous attention in recent years.The formation of holes and pores on graphene sheets can provide transfer channels and facilitate the ion/electron transport kinetics.In this study,graphene nanosheets were prepared electrochemically,and then,they were used as the starting material for the preparation of holey graphene(HG)through the KOH activation process.The weight ratio of initial electrochemically exfoliated graphene(EEG)to KOH was optimized according to the morphological features,BET surface area examination,graphene number of layers calculated from XRD patterns,and the ID/IG ratio obtained from Raman analysis.Results showed that increasing the KOH amount led to the achievement of higher values of ID/IG and surface area and less re-stacking of graphene sheets which occurs because of the heat treatment process.The environmental burdens of the production routes for the preparation of EEG and HG were investigated by cradle-to-gate life cycle assessment(LCA).The LCA results of EEG production indicated that electricity with the contributions of 94%,91%,82%,and 75%of the total impact in four environmental categories,including fossil fuel depletion,ozone depletion,global warming,and smog was the main environmental weakness.In the pore generation process,KOH was recognized as the biggest contributor(about 51%to 83%of the total impact)in six impact categories,including ozone depletion,non-carcinogenics,smog,global warming,carcinogenics,and eutrophication which could be attributed to its high consumption amount(21.9 kg).This work offers environmental considerations for the development of sustainable graphene materials.

关 键 词:Holey graphene Electrochemical exfoliation Life cycle assessment(LCA) Environmental impact KOH activation 

分 类 号:O646[理学—物理化学] TQ127.11[理学—化学]

 

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