S
Siming You
Researcher at University of Glasgow
Publications - 75
Citations - 3155
Siming You is an academic researcher from University of Glasgow. The author has contributed to research in topics: Biochar & Catalysis. The author has an hindex of 21, co-authored 75 publications receiving 1373 citations. Previous affiliations of Siming You include Massachusetts Institute of Technology & Nanyang Technological University.
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Journal ArticleDOI
Enhanced reduction of bromate in water by 2-dimensional porous Co3O4 via catalytic hydrogenation
Duong Dinh Tuan,Hongta Yang,Nguyen Nhat Huy,Eilhann E. Kwon,Ta Cong Khiem,Siming You,Jechan Lee,Kun-Yi Andrew Lin +7 more
TL;DR: In this article, a Co-coordinated framework with TMC ligand (CoTMC) is employed as a precursor, which is then transformed into hexagonal porous Co3O4 (HPCO) via one-step calcination.
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Numerical simulation of particle focusing dynamics of DNA-laden fluids in a microtube
TL;DR: In this article, a CFD model considering inertial, elastic and drag forces was developed to simulate the focusing effect of microparticles in a dilute DNA solution passing through a microtube.
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Investigating crystal plane effect of Co3O4 with various morphologies on catalytic activation of monopersulfate for degradation of phenol in water
Wei-Jie Liu,Haitao Wang,Jechan Lee,Eilhann E. Kwon,Bui Xuan Thanh,Siming You,Young-Kwon Park,Shaoping Tong,Kun-Yi Andrew Lin +8 more
TL;DR: In this paper, shape-varied Co3O4 catalysts with well-defined crystal planes were investigated for catalytic activation of monopersulfate (MPS) to degrade phenol.
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Integrated MOF-mesh and TEMPO-grafted carbon fiber as a sandwich-like catalytic system for selective valorization of lignin-derived compound under microwave irradiation
Jia-Yin Lin,Haitao Wang,Wen-Da Oh,Jechan Lee,Eilhann E. Kwon,Siming You,Chia-Hua Lin,Kun-Yi Andrew Lin +7 more
TL;DR: In this article, a sandwich-like catalytic system (SCS), which comprises HKUST-1 mesh and TEMPO-grafted on carbon cloth, is developed as a heterogeneous catalyst for vanillyl alcohol oxidation.
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Enhanced degradation of ultra-violet stabilizer Bis(4-hydroxy)benzophenone using oxone catalyzed by hexagonal nanoplate-assembled CoS 3-dimensional cluster
Wei-Jie Liu,Hongta Yang,Young-Kwon Park,Eilhann E. Kwon,Chao-Wei Huang,Bui Xuan Thanh,Ta Cong Khiem,Siming You,Farshid Ghanbari,Kun-Yi Andrew Lin +9 more
TL;DR: In this paper, a unique nanoplate-assembled cobalt sulfide (NPCS) 3D cluster is fabricated via a convenient one-step process to serve as a promising heterogeneous catalyst for activating Oxone to degrade Bis(4-hydroxy)benzophenone (BBP) in water.