[1]Novel fluoroimmunoassays for detecting ochratoxin A using CdTe quantum dots. Yao, Jingjing,Wang, Fangyu,Sun, Yaning,Xing, Guangxu,Deng, Ruiguang,Hu, Xiaofei,Zhang, Gaiping,Han, Junling,Zhang, Gaiping.

[2]Monoclonal antibody-quantum dots CdTe conjugate-based fluoroimmunoassay for the determination of aflatoxin B-1 in peanuts. Zhang, Zhaowei,Li, Yuanyuan,Li, Peiwu,Zhang, Qi,Zhang, Wen,Hu, Xiaofeng,Ding, Xiaoxia,Zhang, Zhaowei,Li, Yuanyuan,Li, Peiwu,Hu, Xiaofeng,Ding, Xiaoxia,Zhang, Qi,Zhang, Zhaowei,Li, Peiwu,Li, Peiwu,Zhang, Wen. 2014

[3]Simultaneous determination of 14 antiviral drugs and relevant metabolites in chicken muscle by UPLC-MS/MS after QuEChERS preparation. Qian, Yongzhong,Qiu, Jing.

[4]Quantum dots-Ru complex assembling dyads for cancer cell detection and cellular imaging based on hybridization chain reaction. Zhang, Zhen,Xia, Xiaoyang,Xiang, Xia,Huang, Fenghong,Han, Ling. 2018

[5]Characterization of single-domain antibodies against Foot and Mouth Disease Virus (FMDV) serotype O from a camelid and imaging of FMDV in baby hamster kidney-21 cells with single-domain antibody-quantum dots probes. Wang, Di,Yang, Shunli,Yin, Shuanghui,Shang, Youjun,Du, Ping,Guo, Jianhong,He, Jijun,Cai, Jianping,Liu, Xiangtao. 2015

[6]CuInS2/ZnS Quantum Dots Conjugating Gd(III) Chelates for Near-Infrared Fluorescence and Magnetic Resonance Bimodal Imaging. Yang, Yongbo,Lin, Li,Jing, Lijia,Yue, Xiuli,Dai, Zhifei,Yang, Yongbo. 2017

[7]Assembly of CdTe Quantum Dots and Photosystem II Multilayer Films with Enhanced Photocurrent. Cai, Peng,Jia, Yi,Feng, Xiyun,Li, Jiao,Li, Junbai,Cai, Peng. 2017

[8]Novel multiplex fluorescent immunoassays based on quantum dot nanolabels for mycotoxins determination. Beloglazova, N. V.,Speranskaya, E. S.,Sanders, M.,Goftman, V. V.,De Saeger, S.,Wu, A.,Wang, Z.,Zhang, D.,Goftman, V. V.,Goryacheva, I. Yu..

[9]Quantum dots-based label-free fluorescence sensor for sensitive and non-enzymatic detection of caffeic acid. Xiang, Xia,Huang, Fenghong,Zheng, Mingming,Deng, Qianchun,Shi, Jianbin.

[10]A highly efficient capillary electrophoresis-based method for size determination of water-soluble CdSe/ZnS core-shell quantum dots. Li, Yong-Qiang,Wang, Hai-Qiao,Wang, Jian-Hao,Guan, Li-Yun,Liu, Bi-Feng,Zhao, Yuan-Di,Chen, Hong. 2009

[11]Fluorescent Realgar Quantum Dots: New Life for an Old Drug. Wu, J. Z.,Chen, G.,Shao, Y. B.,Liu, J.,Sun, Y. C.,Lin, H. S.,Ho, Paul C..

[12]High-sensitivity quantum dot-based fluorescence resonance energy transfer bioanalysis by capillary electrophoresis. Li, Yong-Qiang,Wang, Jian-Hao,Zhang, Hai-Li,Yang, Jie,Guan, Li-Yun,Luo, Qing-Ming,Zhao, Yuan-Di,Chen, Hong.

[13]Accurate assessment of antibiotic susceptibility and screening resistant strains of a bacterial population by linear gradient plate. Jin JianLing,Gao PeiJi,Liu YuQing,Li JingRan,Du JiaFa,Hu Ming,Bai Hua,Qi Jing,Gao Chao,Wei TianTian,Su Hong,Li JingRan,Gao Chao,Wei TianTian. 2011

[14]Pharmacokinetics and tissue behavior of enrofloxacin and its metabolite ciprofloxacin in turbot Scophthalmus maximus at two water temperatures. Liang Junping,Li Jian,Zhao Fazhen,Liu Ping,Chang Zhiqiang,Liang Junping,Zhao Fazhen. 2012

[15]Pharmacokinetics and the active metabolite of enrofloxacin in Chinese mitten-handed crab (Eriocheir sinensis). Tang, Jun,Yang, Xian-le,Zheng, Zong-lin,Yu, Wen-juan,Hu, Kun,Yu, Hui-juan. 2006

[16]Enrofloxacin pharmacokinetics in Takifugu flavidus after oral administration at three salinity levels. Ma, Rongrong,Yang, Liu,Ren, Tao,Dong, Yaping,Liu, Tengfei,Yang, Xianle,Hu, Kun,Ma, Rongrong,Zhuang, Ping,Fang, Wenhong,Liu, Tengfei.

[17]Cytotoxic effects and apoptosis induction of enrofloxacin in hepatic cell line of grass carp (Ctenopharyngodon idellus). Liu, Bo,Ge, Xianping,Xie, Jun,Xu, Pao,Liu, Bo,Cui, Yanting,Ge, Xianping,Xie, Jun,Xu, Pao,Brown, Paul B..

[18]Effect of enrofloxacin on gene expression profiles of Escherichia coli. Bai, Hua,Su, Wen-zheng,Zhu, Xiao-ling,Hu, Ming,Liu, Yu-qing,Bai, Hua,Su, Wen-zheng,Zhu, Xiao-ling,Hu, Ming,Liu, Yu-qing.

[19]Phannacokinetics and tissue distribution of enrofloxacin and its metabolite ciprofloxacin in Scylla serrata following oral gavage at two salinities. Fang, Wen-hong,Zhou, Shuai,Yu, Hui-juan,Hu, Lin-lin,Zhou, Kai,Liang, Si-cheng. 2007

[20]Analysis of mechanisms of resistance and tolerance of Escherichia coli to enrofloxacin. Bai, Hua,Du, Jia-fa,Hu, Ming,Qi, Jing,Cai, Ya-na,Niu, Wei-wei,Liu, Yu-qing,Bai, Hua,Du, Jia-fa,Hu, Ming,Qi, Jing,Cai, Ya-na,Niu, Wei-wei,Liu, Yu-qing.