Unassisted photoelectrochemical CO2 reduction by employing III–V photoelectrode with 15% solar‐to‐fuel efficiency

Unassisted photoelectrochemical CO2 reduction by employing III–V photoelectrode with 15% solar‐to‐fuel efficiency

Abstract Solar‐driven carbon dioxide reduction reaction (CO2RR) provides an opportunity to produce value‐added chemical feedstocks and fuels. However, achieving efficient and stable photoelectrochemical (PEC) CO2RR into selective products is challenging owing to the difficulties associated with the...

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Main Authors: Karthik Peramaiah, Purushothaman Varadhan, Vinoth Ramalingam, Bilawal Khan, Pradip Kumar Das, Hao Huang, Hui‐Chun Fu, Xiulin Yang, Vincent Tung, Kuo‐Wei Huang, Jr‐Hau He
Format: Article
Language:English
Published: Wiley 2025-03-01
Series:Carbon Energy
Subjects:
3 J photoanode
CO2 reduction
high STF
unassisted PEC
Online Access:https://doi.org/10.1002/cey2.669
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Summary:Abstract Solar‐driven carbon dioxide reduction reaction (CO2RR) provides an opportunity to produce value‐added chemical feedstocks and fuels. However, achieving efficient and stable photoelectrochemical (PEC) CO2RR into selective products is challenging owing to the difficulties associated with the optical and the electrical configuration of PEC devices and electrocatalyst properties. Herein, we construct an efficient, concentrated sunlight‐driven CO2RR setup consisting of InGaP/GaAs/Ge triple‐junction cell as a photoanode and oxide‐derived Au (Ox‐Au) as a cathode to perform the unassisted PEC CO2RR. Under one‐sun illumination, a maximum operating current density of 11.5 mA cm–2 with an impressive Faradaic efficiency (FE) of ~98% is achieved for carbon monoxide (CO) production, leading to a solar‐to‐fuel conversion efficiency of ~15%. Under concentrated intensity of 10 sun, the photoanode records a maximum current density of ~124 mA cm–2 and maintains ~60% of FE for CO production. The results demonstrate crucial advancements in using III–V based photoanodes for concentrated PEC CO2RR.
ISSN:2637-9368

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