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Establishing 3 <i>d</i> –4 <i>d</i> Orbital Hybridization for Efficient Photothermal Catalytic CO <sub>2</sub> Hydrogenation

Yisi Yang, Fengliang Wang, Wenyuan Lyu, Dawang Tang, Datong Chen, Xin Zhao, Ruiqi Fang, Yingwei Li

2025Angewandte Chemie International Edition15 citationsDOI

Abstract

Abstract Photothermal catalytic CO 2 conversion offers a promising way to address the energy and environmental issues; however, the development of self‐supporting catalysts with high activity and selectivity remains a great challenge. Here, we report the decoration of PdCo alloy on self‐supporting carbon cloth with N‐doped carbon arrays (PdCo‐NC/CC) for efficient photothermal catalytic methanation. In situ spectra and density function theoretical (DFT) calculations demonstrate that the 3 d ‐4 d hybridization between Co and Pd enables an increase in the energy level of the dz 2 ‐5 σ and dyz ‐2 π* states in the CO/PdCo alloy, thus enhancing the binding strength of the *CO intermediate and accelerating the CO hydrogenation. Specifically, the self‐supporting substrate provides highly dispersed metal sites for CO 2 methanation while serving as a photo‐to‐heat converter to improve the temperature of the reaction system. As a result, PdCo‐NC/CC exhibits unprecedented photothermal performance toward CO 2 methanation, delivering a CH 4 generation rate as high as 15.23 mol g metal −1 h −1 and a selectivity of 100% in batch reaction under the irradiation of Xenon lamp without any external thermal source. Moreover, the continuous flow photothermal reaction can be smoothly proceeded over 100 h, demonstrating the high stability of PdCo‐NC/CC in CO 2 hydrogenation.

Topics & Concepts

CatalysisPhotothermal therapyNanotechnologyAstrobiologyMaterials scienceChemistryPhysicsOrganic chemistryAdvanced Photocatalysis TechniquesCatalytic Processes in Materials ScienceCO2 Reduction Techniques and Catalysts
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