M
Muhammad Hassan
Researcher at Shanghai Jiao Tong University
Publications - 27
Citations - 1241
Muhammad Hassan is an academic researcher from Shanghai Jiao Tong University. The author has contributed to research in topics: Leachate & Anammox. The author has an hindex of 15, co-authored 27 publications receiving 712 citations. Previous affiliations of Muhammad Hassan include Karakoram International University & East China Normal University.
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Succession of the functional microbial communities and the metabolic functions in maize straw composting process.
TL;DR: Results showed that humic acid contents in loosely combined humus (HA1) and stably combined humUS (HA2) increased after composting and Staphylococcus, Cellulosimicrobium and Ochrobactrum possibly participated in the transformation of the process.
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Single Mn atom anchored on N-doped porous carbon as highly efficient Fenton-like catalyst for the degradation of organic contaminants
Jingren Yang,Deqian Zeng,Qinggang Zhang,Ruofan Cui,Muhammad Hassan,Lingqian Dong,Jun Li,Yiliang He +7 more
TL;DR: In this paper, a Fenton-like catalyst based on isolated single Mn atom anchored on N-doped porous carbon was proposed for peroxymonosulfate (PMS) degradation, showing an outstanding turnover frequency of greater than 5.69 min−1 in BPA degradation.
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Employing TiO2 photocatalysis to deal with landfill leachate: Current status and development
TL;DR: In this article, the authors present a systematic literature review of heterogeneous TiO2 photocatalysis dealing with pre and post treatment of municipal solid waste (MSW) landfill leachate.
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Power generation and pollutants removal from landfill leachate in microbial fuel cell: Variation and influence of anodic microbiomes.
Muhammad Hassan,Muhammad Hassan,Huawei Wei,Huijing Qiu,Yinglong Su,Syed Wajahat Husain Jaafry,Lu Zhan,Bing Xie +7 more
TL;DR: Power production using simulated wastewater without organic source proved that ammonium could also serve as fuel in MFC and anammox bacteria (2%), denitrifying bacteria (5%) and electrogenic bacteria (15%) were in abundance of the microbial community in the anode.
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Employing Microbial Electrochemical Technology-driven electro-Fenton oxidation for the removal of recalcitrant organics from sanitary landfill leachate
TL;DR: The obtained results demonstrated that the integrated system is a potentially applicable process to deal with bio-recalcitrant compounds present in mature landfill leachate.