Jun Chen
University of Connecticut
16 Papers
28 Citations
Jun Chen is an academic researcher from University of Connecticut. The author has contributed to research in topics: Self-healing hydrogels & Autofluorescence. The author has an hindex of 10, co-authored 16 publications. Previous affiliations of Jun Chen include Sun Yat-sen University.
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Papers
A Biocompatible and Biodegradable Protein Hydrogel with Green and Red Autofluorescence: Preparation, Characterization and In Vivo Biodegradation Tracking and Modeling.
Xiaoyu Ma,Xiangcheng Sun,Derek Hargrove,Jun Chen,Donghui Song,Qiuchen Dong,Xiuling Lu,Tai-Hsi Fan,Youjun Fu,Yu Lei +9 more
TL;DR: It is reported that glutaraldehyde cross-linked BSA (or HSA) forms a novel fluorescent biological hydrogel, exhibiting new green and red autofluorescence in vitro and in vivo without the use of any additional fluorescent labels.
ELP-OPH/BSA/TiO2 nanofibers/c-MWCNTs based biosensor for sensitive and selective determination of p-nitrophenyl substituted organophosphate pesticides in aqueous system
Jing Bao,Jing Bao,Changjun Hou,Qiuchen Dong,Xiaoyu Ma,Jun Chen,Danqun Huo,Mei Yang,Khaled H. Abd El Galil,Wilfred Chen,Yu Lei +10 more
TL;DR: Under the optimized operating conditions, the ELP-OPH/BSA/TiO2NFs/c-MWCNTs based biosensor for OPs shows a wide linear range, a fast response and limits of detection as low as 12nM and 10nM for methyl parathion andParathion, respectively.
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Design and development of a reflective membrane for a novel Building Integrated Concentrating Photovoltaic (BICPV) ‘Smart Window’ system
TL;DR: In this paper, the relationship between the transmittance/reflectance properties and the composition of the thermotropic layer under different environmental temperatures was investigated in terms of hydrogel composition and environmental temperature.
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Functionalized aligned silver nanorod arrays for glucose sensing through surface enhanced Raman scattering
TL;DR: In this paper, an active surface enhanced Raman scattering (SERS) substrate composed of nearly aligned silver nanorods with uniform distribution was fabricated using high vacuum electron beam physical vapor deposition, and a monolayer of 4-mercaptophenylboronic acid (MPBA) was self-assembled on the Ag nanorod surfaces, through the covalent interaction between its thio group and the Ag surface.
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Repetitive Biomimetic Self-healing of Ca(2+)-Induced Nanocomposite Protein Hydrogels.
TL;DR: The superior biocompatibility demonstrated by in vitro cytotoxicity analysis suggests that the as-prepared protein hydrogel shows excellent repetitive self-healing properties without using any external stimuli at ambient condition well-suited for biomedical applications.