L
Li-Xiong Wen
Researcher at Beijing University of Chemical Technology
Publications - 54
Citations - 2263
Li-Xiong Wen is an academic researcher from Beijing University of Chemical Technology. The author has contributed to research in topics: Catalysis & Micromixing. The author has an hindex of 22, co-authored 53 publications receiving 1964 citations. Previous affiliations of Li-Xiong Wen include Chinese Academy of Sciences & Tulane University.
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Journal ArticleDOI
Fabrication of porous hollow silica nanoparticles and their applications in drug release control
TL;DR: PHSN have a promising future in controlled drug delivery applications and was applied as a carrier to study the controlled release behaviors of Brilliant Blue F, which exhibited a typical sustained release pattern without any burst effect.
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Controlled release of avermectin from porous hollow silica nanoparticles: influence of shell thickness on loading efficiency, UV-shielding property and release.
Zhu-Zhu Li,Shi-Ai Xu,Li-Xiong Wen,Fan Liu,An-Qi Liu,Qing Wang,Hai-Yan Sun,Wen Yu,Jian-Feng Chen +8 more
TL;DR: It was found that the amount of loaded avermectin decreases with the increase of shell thickness, while the UV-shielding property of PHSNs for avermECTin is improved as the shell gets thicker, showing that the shell thickness is one of the main controlling factors for the active agent release from such systems.
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Porous hollow silica nanoparticles as controlled delivery system for water-soluble pesticide
TL;DR: It was demonstrated that a high loading capacity (36 wt.%) of validamycin could be achieved, which was found to be more effective than that of the simple immersing method in this study.
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Study of UV-shielding properties of novel porous hollow silica nanoparticle carriers for avermectin.
TL;DR: It appears that PHSN carriers have a promising future in applications requiring sustained pesticide release after exhibiting remarkable UV-shielding properties for avermectin.
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Immobilization of silver on hollow silica nanospheres and nanotubes and their antibacterial effects
TL;DR: The effects of hollow morphologies, i.e., hollow silica nanospheres and nanotubes, as novel hosts on the immobilization of silver has been studied in [Ag(NH3)2]NO3 precursor solutions with various concentrations through heat treatment process as discussed by the authors.