Jinren Ni
Peking University
296 Papers
1.1K Citations
Jinren Ni is an academic researcher from Peking University. The author has contributed to research in topics: Chemistry & Adsorption. The author has an hindex of 61, co-authored 263 publications. Previous affiliations of Jinren Ni include University of Maryland Center for Environmental Science & Southern University of Science and Technology.
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Papers
Metagenomic insights into the profile of antibiotic resistomes in a large drinking water reservoir.
TL;DR: Overall, the potential public health risks posed by resistomes in the water of the Danjiangkou Reservoir were higher in the dry season than in the wet season, and strategies including sediment control and pathogen monitoring are suggested for water safety management in drinking water reservoirs.
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A study of electron-shuttle mechanism in Klebsiella pneumoniae based-microbial fuel cells
TL;DR: In this paper, the authors studied the mechanism of electron shuttle via self-producing mediator in a cubic air-chamber MFC, where the anode electrode was coated with microfiltration membrane (0.22 μm).
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Improving the ammonium ion uptake onto natural zeolite by using an integrated modification process.
Zhu Liang,Jinren Ni +1 more
TL;DR: The introduction of sodium ion enhanced the heat resistance of the raw material from 150 to 400 degrees C, and Na(+) ion treatment followed by calcination could effectively improved pore and surface properties of zeolite, thus leading to the significant enhancement in ammonium ion exchange and adsorption capabilities.
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A membrane-free baffled microbial fuel cell for cathodic reduction of Cu(II) with electricity generation.
TL;DR: This study suggested a novel low-cost approach to remove and recover Cu(II) from Cu(2+)-containing wastewater using MFC-type reactor.
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Subcellular mechanism of Escherichia coli inactivation during electrochemical disinfection with boron-doped diamond anode: A comparative study of three electrolytes
Yujiao Long,Jinren Ni,Zuhui Wang +2 more
TL;DR: Subcellular mechanism of Escherichia coli inactivation during electrochemical disinfection was revealed in terms of comprehensive factors such as cell morphology, total organic components, K(+) leakage, membrane permeability, lipid peroxidation, membrane potential, membrane proteins, intracellular enzyme, cellular ATP level and DNA.
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