H
Hsien Ming Kao
Researcher at National Central University
Publications - 129
Citations - 3505
Hsien Ming Kao is an academic researcher from National Central University. The author has contributed to research in topics: Mesoporous material & Mesoporous silica. The author has an hindex of 30, co-authored 122 publications receiving 3012 citations.
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The effect of carbon coating thickness on the capacity of LiFePO4/C composite cathodes
TL;DR: In this article, two types of carbon source and precursor mixing pellets were employed simultaneously to prepare the LiFePO 4 /C composite materials: Type I using 20.5% polystyrene (PS) as a primary carbon source, and Type II using 50% malonic acid as a secondary carbon vapor source.
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Novel composite polymer electrolyte comprising mesoporous structured SiO2 and PEO/Li
TL;DR: In this paper, a comparison of small angle X-ray diffraction (XRD) of mesoporous MCM-41 and blended films of poly(ethylene oxide) (PEO)/Li showed that the nano-porous SiO2 channels were not destroyed in PEO/Li.
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Functionalization of cubic mesoporous silica SBA-16 with carboxylic acid via one-pot synthesis route for effective removal of cationic dyes.
TL;DR: It is demonstrated that a high density of −COOH groups loading, up to 60 mol% based on silica, is successfully incorporated into SBA-16 via a one-pot synthesis route, which involves co-condensation of carboxyethylsilanetriol sodium salt and tetraethylorthosilicate templated by Pluronic F127 and P123 in an acidic medium.
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Highly conductive and electrochemically stable plasticized blend polymer electrolytes based on PVdF-HFP and triblock copolymer PPG-PEG-PPG diamine for Li-ion batteries
Diganta Saikia,Hao Yiang Wu,Yu Chi Pan,Chi Pin Lin,Kai Pin Huang,Kan-Nan Chen,George Ting-Kuo Fey,Hsien Ming Kao +7 more
TL;DR: In this article, a new plasticized poly(vinylidene fluoride-cohexafluoropropylene (PVdF-HFP)/PPG-PEG-PPG diamine/organosilane blend-based polymer electrolyte system has been synthesized and characterized.
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Size-tunable Ni nanoparticles supported on surface-modified, cage-type mesoporous silica as highly active catalysts for CO2 hydrogenation
Ching-Shiun Chen,Ching-Shiun Chen,Canggih Setya Budi,Hung Chi Wu,Diganta Saikia,Hsien Ming Kao +5 more
TL;DR: In this article, ultrasmall Ni nanoparticles (Ni NPs) were controllably supported in the cage-type mesopores of −COOH-functionalized mesoporous silica SBA-16 (denoted as Ni(x)@S16C, where x is the Ni loading) via wet impregnation under alkaline conditions, followed by thermal reduction.