Q
Quan Wan
Researcher at Chinese Academy of Sciences
Publications - 41
Citations - 470
Quan Wan is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Adsorption & Chemistry. The author has an hindex of 8, co-authored 35 publications receiving 256 citations. Previous affiliations of Quan Wan include Center for Excellence in Education & Temple University.
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Highly efficient adsorption and catalytic degradation of ciprofloxacin by a novel heterogeneous Fenton catalyst of hexapod-like pyrite nanosheets mineral clusters
TL;DR: In this article, a hexapod-like pyrite nanosheets mineral cluster was prepared via a facile hydrothermal method, which possessed a higher adsorption capacity and catalytic activity to ciprofloxacin (20mg/L), which could be completely degraded within 10min at pH 4.0.
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Understanding Stöber silica's pore characteristics measured by gas adsorption.
TL;DR: The experimental results demonstrated the important but often overlooked effects of reaction time and postsynthesis treatments on Stöber silica's pore characteristics, as evidenced by the strikingly large range of BET specific surface area.
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Nanogeosciences: Research History, Current Status, and Development Trends
Yiwen Ju,Cheng Huang,Yan Sun,Quan Wan,Xiancai Lu,Shuangfang Lu,Hongping He,Xueqiu Wang,Caineng Zou,Jianguang Wu,Hailing Liu,Longyi Shao,Xiuling Wu,Hongtai Chao,Qinfu Liu,Jieshan Qiu,Min Wang,Jianchao Cai,Guochang Wang,Yue Sun +19 more
TL;DR: Nanogeosciences as discussed by the authors is a series of geoscience domains, taking the matters on different layers of the earth as a research target, to reveal the information of nanoparticles and nanopores and their relationship with geoscientific phenomena and especially genetic types during the geosciific processes.
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Thermal pretreatment of silica composite filler materials.
TL;DR: To remove the organic content and maintain adequate silanol density for subsequent silanization on Stöber-type silica, it is suggested heating at 673 K followed by overnight boiling in water.
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Polymer-Assisted Formation of Giant Polyoxomolybdate Structures
TL;DR: It is suggested that this new material may find unique applications as a high-efficiency absorbent or catalyst, and the current synthetic method may open up new pathways to prepare similar functional nanomaterials.