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Chen Li
Publications - 6
Citations - 152
Chen Li is an academic researcher. The author has contributed to research in topics: Chemistry & Catalysis. The author has an hindex of 1, co-authored 1 publications receiving 5 citations.
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Magnetic-dielectric synergy and interfacial engineering to design yolk–shell structured CoNi@void@C and CoNi@void@C@MoS2 nanocomposites with tunable and strong wideband microwave absorption
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Antibacterial properties and drug release study of cellulose acetate nanofibers containing ear-like Ag-NPs and Dimethyloxallyl Glycine/beta-cyclodextrin
Chen Li,Zhiwei Liu,Song Liu,Santosh K. Tiwari,Kunyapat Thummavichai,Oluwafunmilola Ola,Zhiyuan Ma,Shenghua Zhang,Nannan Wang,Yanqiu Zhu +9 more
TL;DR: In this article , a wound dressing with sustained-release and antibacterial properties was prepared using cellulose acetate (CA) as the matrix and Dimethyloxallyl Glycine (DMOG) and silver nanoparticles (Ag-NPs) as a drug loading component.
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Novel Core-shell SnIn4S8@Bi2MoO6 Heterojunction with Highly-enhanced Photocatalytic Activity for Visible Light-driven Cr (VI) Reduction
TL;DR: In this article , a core-shell SnIn4S8@Bi2MoO6 heterojunction (SIS/BMO) photocatalyst was successfully fabricated via encapsulating Bi 2MoOO6 nanosheets on the surface of a flower-like SnIn 4S8 microsphere.
Journal ArticleDOI
In-situ fabrication of NixSey/MoSe2 hollow rod array for enhanced catalysts for efficient hydrogen evolution reaction.
Song Liu,Xuefeng Lv,Guangsheng Liu,Chen Li,Kunyapat Thummavichaia,Zhen Li,Linying Zhang,Zhini Bin,Nannan Wang,Yanqiu Zhu +9 more
TL;DR: In this article , bionic NixSey/MoSe2 coralline-liked heterogeneous structures were successfully prepared on 3D nickel foam (NF) via a simple solvothermal process complemented by hydrothermal strategy with selenization and alkali treatment.
Optical Modeling and Analysis of Disordered Plasmonic Nanoparticle Ensembles
TL;DR: Fakhraai et al. as discussed by the authors developed models as guideline to design facile characterization methods that can be used to effectively describe the properties of disordered plasmonic nanoparticle ensembles.