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Xuhong Guo
Researcher at East China University of Science and Technology
Publications - 446
Citations - 9803
Xuhong Guo is an academic researcher from East China University of Science and Technology. The author has contributed to research in topics: Chemistry & Catalysis. The author has an hindex of 44, co-authored 382 publications receiving 7314 citations. Previous affiliations of Xuhong Guo include Karlsruhe Institute of Technology & Xinjiang Production and Construction Corps.
Papers
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Thermosensitive Au-PNIPA yolk-shell nanoparticles with tunable selectivity for catalysis.
Shuang Wu,Shuang Wu,Shuang Wu,Joachim Dzubiella,Joachim Dzubiella,Julian Kaiser,Julian Kaiser,Markus Drechsler,Xuhong Guo,Matthias Ballauff,Matthias Ballauff,Yan Lu,Yan Lu +12 more
TL;DR: Yolk– shell systems may be regarded as true nanoreactors that allow the catalytic activity of single nanoparticles to be studied in a defined environment and are presented as a thermosensitive yolk–shell system that uses temperature as a trigger for reaction.
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Synthesis of Spherical Polyelectrolyte Brushes by Photoemulsion Polymerization
TL;DR: In this paper, the synthesis and characterization of latex particles consisting of a poly(styrene) core and a shell of linear poly(acrylic acid) (PAA) chains are described.
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Spherical polyelectrolyte brushes: comparison between annealed and quenched brushes.
Xuhong Guo,Matthias Ballauff +1 more
TL;DR: The entire set of L as a function of R, L(c), and sigma can be fully explained in terms of a simple two-parameter theory developed by Hariharan et al.
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Flute type micropores activated carbon from cotton stalk for high performance supercapacitors
Xun Tian,Xun Tian,Hongru Ma,Zhe Li,Shaocun Yan,Lei Ma,Feng Yu,Gang Wang,Xuhong Guo,Xuhong Guo,Yanqing Ma,Yanqing Ma,Ching-Ping Wong,Ching-Ping Wong +13 more
TL;DR: In this paper, a flute type micropores activated carbon (FTMAC) has been successfully obtained from cotton stalk via KOH-chemical activation method, and the synthesized carbon material exhibits an ordered pore structure with high specific surface area of 196446m 2 ǫg −1 and pore volume of 103m 3ǫm 3 Ãǫ g −1, demonstrating a good rate capacity (87% retention) as well as long cyclic stability.
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Preparation of Superhydrophobic Magnetic Cellulose Sponge for Removing Oil from Water
TL;DR: In this paper, a superhydrophobic magnetic cellulose sponge (SMCE) was used to separate free oil/water mixtures and surfactant-stabilized W/O emulsions.