Strong interface interaction enriched surface Co3+ cations on Co3O4-LaCoO3 composite catalyst for highly efficient toluene oxidation-Reference-Cited by-同舟云学术

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Strong interface interaction enriched surface Co3+ cations on Co3O4-LaCoO3 composite catalyst for highly efficient toluene oxidation

Published:2023-10 Issue: Volume:549 Page:113510
ISSN:2468-8231
Container-title:Molecular Catalysis
language:en
Short-container-title:Molecular Catalysis

Author:

Chen Jiahao,Zeng Yiqing,Zhang Shule,Zhong Zhaoxiang,Zhong Qin

Publisher

Elsevier BV

Subject

Physical and Theoretical Chemistry,Process Chemistry and Technology,Catalysis

Reference34 articles.

1. Defect enhanced CoMnNiOx catalysts derived from spent ternary lithium-ion batteries for low-temperature propane oxidation;Li;Appl. Catal. B Environ.,2022

2. Cr-doping regulates Mn3O4 spinel structure for efficient total oxidation of propane: structural effects and reaction mechanism determination;Feng;Appl. Catal. B Environ.,2023

3. Monoatomic oxygen fueled by oxygen vacancies governs the photothermocatalytic deep oxidation of toluene on Na-doped Co3O4;Dai;Appl. Catal. B Environ,2022

4. Enhanced catalytic performance of La-doped CoMn2O4 catalysts by regulating oxygen species activity for VOCs oxidation;Ren;ACS Catal.,2023

5. Atomically dispersed Pt-doped Co3O4 spinel nanoparticles embedded in polyhedron frames for robust propane oxidation at low temperature;Xiong;Small Methods,2023

Cited by 5 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. Activation of Co O bond in {1 1 0} facet exposed Co3O4 by La doping for the boost of toluene catalytic oxidation;Separation and Purification Technology;2025-02

2. Adjustment mechanism of Co3+ performance in Co3O4-LaO catalyst for high-efficiency catalytic combustion of toluene;Separation and Purification Technology;2025-02

3. Insight into the Better Collaboration of NiO and MnO_x in NiMn₂O₄ Spinel for Enhanced the Catalytic Oxidation Performance of Toluene;ChemCatChem;2024-07-25

4. Experimental and theoretical investigation on the high activity La0.8-xSr0.2KxMn1-yByO3-δ perovskite catalyst with combined A and B site modifications;Molecular Catalysis;2024-04

5. Surface engineering to tailor the active sites of SrTi0.9Co0.1O3-δ perovskite for CO oxidation;Molecular Catalysis;2023-11

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