A dual-site Cu-ZnO/Cu@Si catalyst boosts CO2 hydrogenation to CH3OH-Reference-Cited by-同舟云学术

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A dual-site Cu-ZnO/Cu@Si catalyst boosts CO2 hydrogenation to CH3OH

Published:2023-11 Issue: Volume:550 Page:113574
ISSN:2468-8231
Container-title:Molecular Catalysis
language:en
Short-container-title:Molecular Catalysis

Author:

Mao Donglei,Zhang Heng^ORCID,Zhang Jinxin,Wu Dongfang^ORCID

Funder

National Natural Science Foundation of China

Publisher

Elsevier BV

Subject

Physical and Theoretical Chemistry,Process Chemistry and Technology,Catalysis

Reference53 articles.

1. CO2 hydrogenation to methanol over hydrothermally synthesized Inx-Zry catalysts;Zhang;Mol. Catal.,2023

2. Suppression of CO2 induced lithium anode corrosion by fluorinated functional group in quasi-solid polymer electrolyte enabling long-cycle and high-safety Li-CO2 batteries;Liu;Energy Storage Mater,2023

3. Effective production of formic and acetic acid via CO2 hydrogenation with hydrazine by using ZrO2 catalysts;Sagar;Mol. Catal.,2023

4. Highly dispersed Cd cluster supported on TiO2 as an efficient catalyst for CO2 hydrogenation to methanol;Wang;Chinese J. Catal.,2022

5. Synergistic effect of the metal-support interaction and interfacial oxygen vacancy for CO2 hydrogenation to methanol over Ni/In2O3 catalyst: a theoretical study;Shen;J. Energy Chem.,2022

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1. Theoretical investigation of CO2 hydrogenation to methanol catalyzed on Pd-Ga bimetallic catalysts: Insights into the effects of Ga in different coordination environments;Applied Surface Science;2024-10

2. Recent innovation on heterogeneous ZnO-based catalysts for enhanced CO2 hydrogenation;Journal of Environmental Chemical Engineering;2024-06

3. Crystal plane effect of copper with different oxides/hydroxides nano-composites on catalytic performance and mechanism towards the reduction of 4-nitrophenol;Molecular Catalysis;2024-04

4. Promoting CuO/Cu(OH)2 for electrocatalytic reduction of CO2 to HCOOH: The study on pyridine-modified surface active sites;Molecular Catalysis;2024-03

5. Copper-supported catalysts for sustainable PET depolymerization: a cost-effective approach towards dimethyl terephthalate (DMT) production;Green Chemistry;2024

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