Acid etching-induced Ce3+−O − Mn4+ active sites of SmCe0.1Mn1.9O5 mullite for enhanced elimination of Hg0 and chlorobenzene

Author:

Shi Qiqi,Zhang Chenguang,Shen Boxiong,Zhang Xiao,Lyu Honghong,Li Shuhao,Kang Dongrui,Bian Yao

Publisher

Elsevier BV

Subject

Organic Chemistry,Energy Engineering and Power Technology,Fuel Technology,General Chemical Engineering

Reference60 articles.

1. Mechanisms of mercury transformation over α-Fe2O3(0 0 1) in the presence of HCl and/or H2S;Chen;Fuel,2018

2. UNEP, 2018. Minamata Convention on Mercury. United Nations Environment Programme. United Nations Environment Program. https://www.unep.org/resources/publication/global-mercury-assessment-2018, (accessed 10-05-2023).

3. Thermal separation of heavy metals from municipal solid waste incineration fly ash: A review;He;Chem Eng J,2023

4. Synergistic catalytic elimination of NOx and chlorinated organics: Cooperation of acid sites;Zhang;Environ Sci Technol,2022

5. Insights into synergistic oxidation mechanism of Hg0 and chlorobenzene over MnCo2O4 microsphere with oxygen vacancy and acidic site;Shi;J Hazard Mater,2023

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