Hierarchical nanostructures self-assembled from δ-MnO2 ultrathin nanosheets and Mn3O4 octahedrons for efficient room-temperature HCHO oxidation
Author:
Affiliation:
1. College of Architecture and Materials Engineering
2. Hubei University of Education
3. Wuhan 430205
4. P. R. China
5. Institute of Materials Research and Engineering (IMRE)
6. Wuhan
7. College of Chemistry and Life Science
Abstract
Self-assembling ultrathin active δ-MnO2 nanosheets and Mn3O4 octahedrons into hierarchical texture enhances room-temperature formaldehyde oxidation at a low-level of Pt.
Funder
Natural Science Foundation of Hubei Province
China Scholarship Council
National Natural Science Foundation of China
Hubei University of Education
Publisher
Royal Society of Chemistry (RSC)
Subject
Materials Chemistry,General Chemistry,Catalysis
Link
http://pubs.rsc.org/en/content/articlepdf/2021/NJ/D0NJ05515H
Reference73 articles.
1. Formaldehyde in the Indoor Environment
2. Formaldehyde emission behavior of building materials: On-site measurements and modeling approach to predict indoor air pollution
3. Formaldehyde emission monitoring from a variety of solid wood, plywood, blockboard and flooring products manufactured for building and furnishing materials
4. Cancer effects of formaldehyde: a proposal for an indoor air guideline value
5. Streamlining IAQ guidelines and investigating the effect of door opening/closing on concentrations of VOCs, formaldehyde, and NO2 in office buildings
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1. The Catalytic and Adsorptive Synergistic Effect of Oxygen-Vacancy-Rich MnOx/C Catalysts for HCHO Oxidation at Room Temperature;Industrial & Engineering Chemistry Research;2024-03-14
2. The effect of hydrogen reduction of α-MnO2 on formaldehyde oxidation: The roles of oxygen vacancies;Chinese Chemical Letters;2023-03
3. One-step fabrication of electrospun flexible and hierarchically porous Pt/γ-Al2O3 nanofiber membranes for HCHO and particulate removal;New Journal of Chemistry;2022
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