Surficial engineering of active hydroxyls for ambient formaldehyde oxidation via enhanced Lewis acidity over Zr-doped cryptomelane materials-Reference-Cited by-同舟云学术

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Surficial engineering of active hydroxyls for ambient formaldehyde oxidation via enhanced Lewis acidity over Zr-doped cryptomelane materials

Published:2024-04 Issue: Volume:247 Page:118255
ISSN:0013-9351
Container-title:Environmental Research
language:en
Short-container-title:Environmental Research

Author:

Wang Hui-Jun,Yang Huan-Huan,Li Zhonghong,Shen Xudong,Chen Tian-Yun,Zhan Jingjing,Zhou Hao,Yi Xianliang,Zhang Shi-Yu,Liu Yang^ORCID

Funder

National College Students Innovation and Entrepreneurship Training Program

Fundamental Research Funds for the Central Universities

National Natural Science Foundation of China

Publisher

Elsevier BV

Subject

General Environmental Science,Biochemistry

Reference54 articles.

1. Evaluation of low-cost formaldehyde sensors calibration;Alonso;Build. Environ.,2022

2. Mechanism of catalytic ozonation in different surface acid sites of oxide aqueous suspensions;Bing;Environ. Sci.: Nano,2023

3. Homogeneous introduction of CeOy into MnOx-based catalyst for oxidation of aromatic VOCs;Chen;Appl. Catal. B Environ.,2018

4. Engineering oxygen vacancies via amorphization in conjunction with W-doping as an approach to boosting catalytic properties of Pt/Fe-W-O for formaldehyde oxidation;Chen;J. Hazard Mater.,2021

5. Oxidative decomposition with PEG-MnO2 catalyst for removal of formaldehyde: chemical aspects on HCHO oxidation mechanism;Do;Appl. Surf. Sci.,2022

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