Advances and challenges in electrochemical CO 2 reduction processes: an engineering and design perspective looking beyond new catalyst materials

Garg, Sahil; Li, Mengran; Weber, Adam Z.; Ge, Lei; Li, Liye; Rudolph, Victor; Wang, Guoxiong; Rufford, Thomas E.

doi:10.1039/c9ta13298h

articleJournal of Materials Chemistry ADec 12, 2019BRONZE OA

Advances and challenges in electrochemical CO 2 reduction processes: an engineering and design perspective looking beyond new catalyst materials

SGSahil Garg MLMengran Li AZAdam Z. Weber LGLei Ge LLLiye Li

The University of Queensland · Berkeley College · +6 more institutions

Indexed incrossref

Abstract

This review of design and operating conditions of electrochemical CO2reduction covers electrolytes, electrodes, reactors, temperature, pressure, and pH effects.

Citation impact

460

total citations

FWCI: 11.53
Percentile: 100%
References: 345

Citations per year

Authors

SG
Sahil Garg
The University of Queensland
ML
Mengran LiCorresponding
The University of Queensland
AZ
Adam Z. Weber
Berkeley College, Lawrence Berkeley National Laboratory, Joint Center for Artificial Photosynthesis
LG
Lei Ge
The University of Queensland, University of Southern Queensland, Material Physics Center
LL
Liye Li
Shijiazhuang University, HBIS (China)

Topics & keywords

Topics

CO2 Reduction Techniques and Catalysts100%
Ionic liquids properties and applications99%
Ammonia Synthesis and Nitrogen Reduction97%

Keywords

Electrochemistry
Perspective (graphical)
Reduction (mathematics)
Electrolyte
Catalysis
Materials science
Electrode
Process engineering

No related works found for this paper.

Funding

UD
U.S. Department of Energy
Awards: Award No. DE-SC0004993, DE-SC0004993, SC0004993
UO
University of Queensland
OO
Office of Science
Award: DE-SC0004993
AR
Australian Research Council
Award: LP160101729
LB
Lawrence Berkeley National Laboratory
Award: DE-SC0004993