首页|期刊导航|Journal of Materiomics|Harnessing energetic charge carriers in plasmonic Au:towards multi-electron CO_(2)-to-C_(2+)photoreduction

Harnessing energetic charge carriers in plasmonic Au:towards multi-electron CO_(2)-to-C_(2+)photoreductionOA

中文摘要

Solar driven photocatalytic carbon dioxide(CO_(2))conversion into carbon-based chemicals and fuels has been regarded as a promising strategy to simultaneously address the dual challenges of carbon emission and energy shortage,with multi-carbon(C_(2+))products(e.g.,ethylene,ethane,ethyl alcohol,propane,etc.)generated for preference,due to their higher energy density and economic value.However,it is still highly challenging to achieve high photocatalytic activity for CO_(2)-to-C_(2+)conversion,as limited by insufficient optical absorption.

Yanrui Li;Ruyu Guo;Tingting Kong;Shaohua Shen

College of Materials Science and Engineering,Xi''an University of Science and Technology,Xi''an,710054,ChinaCollege of Materials Science and Engineering,Xi''an University of Science and Technology,Xi''an,710054,ChinaCollege of Chemistry and Materials Science,Anhui Normal University,Wuhu,241002,Anhui,ChinaInternational Research Center for Renewable Energy,State Key Laboratory of Multiphase Flow in Power Engineering,Xi''an Jiaotong University,Xi''an,710049,China Xi''an Jiaotong University Suzhou Academy,Suzhou,215123,Jiangsu,China

化学化工

CAumulti electronplasmonichigh photocatalytic activityphotocatalyticCOsolar driven photocatalytic

《Journal of Materiomics》 2026 (2)

P.303-309,7

supported by the National Key R&D Program of China(2024YFF0506100)the National Natural Science Foundation of China(52225606,52372165)the Outstanding Youth for Xi''an University of Science and Technology(2023YQ3-07)Xi''an Asso-ciation for Science and Technology Young Talent Support Program(959202413073).

10.1016/j.jmat.2026.101181

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