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Progress in heterostructures for photoelectrocatalytic reduction of carbon dioxide into fuels and value-added products

Authors
Maitlo, Hubdar AliYounis, Sherif A.Lee, Caroline SunyongKim, Ki-Hyun
Issue Date
Jul-2025
Publisher
Elsevier BV
Keywords
Photoelectrocatalytic CO 2 hydrogenation; TiO 2 composite catalyst; Metal-organic frameworks; Operating performance comparison
Citation
Advances in Colloid and Interface Science, v.341, pp 1 - 24
Pages
24
Indexed
SCIE
SCOPUS
Journal Title
Advances in Colloid and Interface Science
Volume
341
Start Page
1
End Page
24
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/207042
DOI
10.1016/j.cis.2025.103483
ISSN
0001-8686
1873-3727
Abstract
Carbon capture and utilization (CCU) technology offers a sustainable option to simultaneously address both energy crisis and environmental pollution such as catalytic reduction of carbon dioxide (CO2) into value-added fuel products (e.g., C1–C3). Among diverse CCU strategies, the light-irradiated photoelectrocatalytic (PEC) approach is recognized as a cutting-edge option for efficient CO2 reduction reaction (RR) through the integration of photocatalysis and electrocatalysis within a one-stage hybridized catalytic system. Therefore, this review is meticulously structured to elucidate the potential utility of advanced composite catalysts (e.g., titanium dioxide, metal-organic frameworks, and organic/miscellaneous heterostructure materials) in PEC-CO2RR. It also examines the factors and processes governing their PEC-CO2RR activites in relation to their reduction pathways, electronic structures, charge-carrier dynamics, types of electrolytes, mass transfer, light-adsorption potential, and the viability of active sites. The fundamental principles and working mechanisms of diverse catalytic materials in PEC-CO2RR are also outlined to help establish the advanced catalytic systems based on performance assessments (e.g., in terms of CO2 conversion rate, quantum yield, and space-time yield). Overall, this review is expected to deliver the new path for the construction of the next-generation PEC-CO2RR systems that are upscalable, stable, and reusable with enhanced catalytic activity.
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