Fan He
Sichuan University
14 Papers
38 Citations
Fan He is an academic researcher from Sichuan University. The author has contributed to research in topics: Controlled release & Membrane. The author has an hindex of 9, co-authored 14 publications.
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Papers
Novel intestinal-targeted Ca-alginate-based carrier for pH-responsive protection and release of lactic acid bacteria.
Li Mei,Fan He,Rong-Qing Zhou,Chong-De Wu,Ru Liang,Rui Xie,Xiao-Jie Ju,Wei Wang,Liang-Yin Chu +8 more
TL;DR: The proposed CAP composite carrier provides a novel mode for developing efficient protection systems, responsive controlled-release systems, and intestinal-targeted drug delivery systems.
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Designable Polymeric Microparticles from Droplet Microfluidics for Controlled Drug Release
Fan He,Mao-Jie Zhang,Wei Wang,Quan-Wei Cai,Yao-Yao Su,Zhuang Liu,Yousef Faraj,Xiao-Jie Ju,Rui Xie,Liang-Yin Chu +9 more
TL;DR: This review highlights recent progress on controllable microfluidic fabrication of monodisperse emulsion templates and the resultant polymeric microparticles with well‐tailored structures and functions for flexible encapsulation and controlled release of drugs.
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Controllable Multicompartmental Capsules with Distinct Cores and Shells for Synergistic Release.
Fan He,Wei Wang,Xiao-Heng He,Xiu-Lan Yang,Ming Li,Rui Xie,Xiao-Jie Ju,Zhuang Liu,Liang-Yin Chu,Liang-Yin Chu +9 more
TL;DR: A facile and flexible approach is developed for controllable fabrication of novel multiple-compartmental calcium alginate capsules from all-aqueous droplet templates with combined coextrusion minifluidic devices for isolated coencapsulation and synergistic release of diverse incompatible components.
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Monodisperse Na2SO4·10H2O@SiO2 Microparticles against Supercooling and Phase Separation during Phase Change for Efficient Energy Storage
Ming Li,Wei Wang,Zhengguo Zhang,Fan He,Shan Yan,Pei-Jie Yan,Rui Xie,Xiao-Jie Ju,Zhuang Liu,Liang-Yin Chu +9 more
TL;DR: In this paper, a SiO2 microparticles containing controllable content of Na2SO4·10H2O against supercooling and phase separation is developed for efficient energy storage at mild temperatures.
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Novel Membrane Detector Based on Smart Nanogels for Ultrasensitive Detection of Trace Threat Substances.
Pei-Jie Yan,Fan He,Wei Wang,Shi-Yuan Zhang,Lei Zhang,Ming Li,Zhuang Liu,Xiao-Jie Ju,Rui Xie,Liang-Yin Chu +9 more
TL;DR: The nanogel-immobilized membrane detector offers a flexible platform to create versatile new membrane detectors by incorporating diverse smart nanogels for ultrasensitive and highly selective real-time detection of different trace threat substances.
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