K
Ke Tian
Researcher at University of Science and Technology of China
Publications - 25
Citations - 1620
Ke Tian is an academic researcher from University of Science and Technology of China. The author has contributed to research in topics: Pyrolysis & Catalysis. The author has an hindex of 16, co-authored 20 publications receiving 1237 citations. Previous affiliations of Ke Tian include Xiangtan University.
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Investigation on the evolution of N-containing organic compounds during pyrolysis of sewage sludge.
TL;DR: It is found for the first time that the heating rate of pyrolysis can significantly change the species of liquid organic compounds produced, but cannot change the gaseous species produced under the same conditions.
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Mesoporous carbon stabilized MgO nanoparticles synthesized by pyrolysis of MgCl2 preloaded waste biomass for highly efficient CO2 capture.
TL;DR: A new strategy that the inexhaustible MgCl2 in seawater and the abundantly available biomass waste can be utilized to prepare mesoporous carbon stabilized MgO nanoparticles (mPC-MgO) for CO2 capture would open up a new pathway to slow down global warming as well as resolve the pollution of waste biomass.
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High-yield harvest of nanofibers/mesoporous carbon composite by pyrolysis of waste biomass and its application for high durability electrochemical energy storage.
TL;DR: A scalable, "green" method for the synthesis of the nanofibers/mesoporous carbon composites through pyrolysis of the Fe(III)-preloaded biomass, which is controllable by adjustment of temperature and additive of catalyst is reported.
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Facile synthesis of highly efficient and recyclable magnetic solid acid from biomass waste
TL;DR: In this work, sawdust, a biomass waste, is converted into a magnetic porous carbonaceous (MPC) solid acid catalyst by an integrated fast pyrolysis–sulfonation process, offering effective alternatives for environmentally friendly utilization of abundant biomass waste.
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Harvest of Cu NP anchored magnetic carbon materials from Fe/Cu preloaded biomass: their pyrolysis, characterization, and catalytic activity on aqueous reduction of 4-nitrophenol
TL;DR: In this article, a value-added Cu NP anchored magnetic carbon (Cu&Fe3O4-mC) material was obtained directly by fast pyrolysis of heavy metal polluted biomass (derived from a biosorption process using fir sawdust to remove Cu(II) from synthetic wastewater).