[1]Visual and microplate detection of aflatoxin B2 based on NaCl-induced aggregation of aptamer-modified gold nanoparticles. Luan, Yunxia,Chen, Jiayi,Li, Cheng,Ping, Hua,Ma, Zhihong,Lu, Anxiang,Xie, Gang.

[2]Improving sensitivity of gold nanoparticle based fluorescence quenching and colorimetric aptasensor by using water resuspended gold nanoparticle. Liu, Jinchuan,Guan, Zheng,Lv, Zhenzhen,Jiang, Xiaoling,Yang, Shuming,Chen, Ailiang,Liu, Jinchuan,Guan, Zheng,Lv, Zhenzhen,Jiang, Xiaoling,Yang, Shuming,Chen, Ailiang.

[3]Highly Sensitive Colorimetric Detection of Ochratoxin A by a Label-Free Aptamer and Gold Nanoparticles. Luan, Yunxia,Chen, Jiayi,Li, Cheng,Fu, Hailong,Ma, Zhihong,Lu, Anxiang,Luan, Yunxia,Chen, Jiayi,Li, Cheng,Fu, Hailong,Ma, Zhihong,Lu, Anxiang,Xie, Gang. 2015

[4]Label free electrochemical aptasensor for ultrasensitive detection of ractopamine. Wang, Peilong,Wang, Ruiguo,Su, Xiaoou,Yang, Fei,Shi, Lei,Zhou, Ying,He, Yujian,Yao, Dongsheng.

[5]High sensitive rapid visual detection of sulfadimethoxine by label-free aptasensor. Chen, Ailiang,Jiang, Xiaoling,Zhang, Weiwei,Chen, Gang,Zhao, Yan,Tunio, Tarique Muhammad,Liu, Jinchuan,Lv, Zhenzhen,Yang, Shuming,Chen, Ailiang,Jiang, Xiaoling,Zhang, Weiwei,Chen, Gang,Zhao, Yan,Tunio, Tarique Muhammad,Liu, Jinchuan,Yang, Shuming,Lv, Zhenzhen,Li, Cheng.

[6]Rapid Visual Detection of Aflatoxin B1 by Label-Free Aptasensor Using Unmodified Gold Nanoparticles. Luan, Yunxia,Chen, Jiayi,Lu, Anxiang,Li, Cheng,Fu, Hailong,Ma, Zhihong,Wang, Jihua,Chen, Zhengbo,Xie, Gang.

[7]An aptamer-based signal-on bio-assay for sensitive and selective detection of Kanamycin A by using gold nanoparticles. Chen, Jing,Li, Zhaohui,Ge, Jia,Yang, Ran,Zhang, Lin,Qu, Ling-bo,Qu, Ling-bo,Wang, Hong-qi,Zhang, Ling.

[8]The Applications of Gold Nanoparticle-Initialed Chemiluminescence in Biomedical Detection. Liu, Zezhong,Zhao, Furong,Gao, Shandian,Shao, Junjun,Chang, Huiyun. 2016

[9]Detection and differentiation of influenza viruses with glycan-functionalized gold nanoparticles. Zheng, Longtang,Lv, Xun,Bi, Yuhai,Zhang, Zhenxing,Wang, Pengfei,Liu, Ruichen,Jiang, Jingwen,Cong, Haolong,Liu, Wenjun,Gao, George F.,Li, Xuebing,Li, Xuebing,Zheng, Longtang,Zhang, Zhenxing,Wang, Pengfei,Jiang, Jingwen,Li, Xuebing,Wei, Jinhua,Du, Yuguang,Wu, Peixing,Liang, Jingnan,Cheng, Wenwen,Jiang, Xingyu,Cao, Hongzhi,Bi, Yuhai,Liu, Wenjun,Gao, George F.,Li, Xuebing,Cheng, Wenwen.

[10]Aptamer-Based Fluorescence Assay for Hg2+ Determination. Lei Zhao-Jing,Hu Qiu-Hui,Lei Zhao-Jing,Zhang Cun-Zheng,Liu Yuan,Zhang Qiang,Liu Xian-Jin. 2012

[11]Aptamer based photometric assay for the antibiotic sulfadimethoxine based on the inhibition and reactivation of the peroxidase-like activity of gold nanoparticles. Yan, Jiao,Huang, Yafei,Zhang, Chenghui,Fang, Zongzhuang,Yan, Jiao,Huang, Yafei,Bai, Wenhui,Yan, Mengmeng,Zhu, Chao,Chen, Ailiang,Yan, Jiao,Huang, Yafei,Bai, Wenhui,Yan, Mengmeng,Zhu, Chao,Chen, Ailiang.

[12]A simple and sensitive competitive bio-barcode immunoassay for triazophos based on multi-modified gold nanoparticles and fluorescent signal amplification. Zhang, Chan,Jiang, Zejun,Jin, Maojun,Chen, Ge,Cao, Xiaolin,Cui, Xueyan,Zhang, Yudan,Li, Ruixing,Wang, Jing,Zhang, Chan,Jiang, Zejun,Jin, Maojun,Chen, Ge,Cao, Xiaolin,Cui, Xueyan,Zhang, Yudan,Li, Ruixing,Wang, Jing,Du, Pengfei,Du, Pengfei,Du, Pengfei,Abd El-Aty, A. M.,Abd El-Aty, A. M.. 2018

[13]Simulation of adsorption of gold nanoparticles carried by gas ascending from the Earth's interior in alluvial cover of the middle-lower reaches of the Yangtze River. Cao, J. J.,Hu, X. Y.,Jiang, Z. T.,Li, H. W.,Zou, X. Z.. 2010

[14]Green synthesis of gold nanoparticles using Citrus maxima peel extract and their catalytic/antibacterial activities. Yuan, Chun-Gang,Huo, Can,Gui, Bing,Cao, Wei-Ping. 2017

[15]Enzymatic reporting of peste des petits ruminants virus genes ligating two specific probes on nanoparticles. Tao, Chunai,Li, Gang,Wang, Yong,Huang, Huaxin,Tao, Chunai,Li, Gang,Wang, Yong,Huang, Huaxin,Wang, Yong.

[16]An ultrasensitive amperometric immunosensor for zearalenones based on oriented antibody immobilization on a glassy carbon electrode modified with MWCNTs and AuPt nanoparticles. Liu, Na,Tan, Yanglan,Wang, Hui,Wu, Aibo,Nie, Dongxia,Zhao, Zhiyong,Liao, Yucai,Sun, Changpo.

[17]Colorimetric detection of ractopamine and salbutamol using gold nanoparticles functionalized with melamine as a probe. Wang, Peilong,Su, Xiaoou,Zhou, Ying,Zhao, Hong,He, Yujian,He, Yujian.

[18]Ultrasmall Graphene Oxide Supported Gold Nanoparticles as Adjuvants Improve Humoral and Cellular Immunity in Mice. Cao, Yuhua,Ma, Yufei,Zhang, Mengxin,Wang, Haiming,Tu, Xiaolong,Shen, He,Dai, Jianwu,Zhang, Zhijun,Cao, Yuhua,Zhang, Mengxin,Tu, Xiaolong,Shen, He,Wang, Haiming,Guo, Huichen.

[19]Synergetic dual recognition and separation of the fungicide carbendazim by using magnetic nanoparticles carrying a molecularly imprinted polymer and immobilized beta-cyclodextrin. Li, Shuhuai,Wu, Xuejin,Zhang, Qun,Li, Pingping,Li, Shuhuai,Wu, Xuejin,Zhang, Qun,Li, Pingping.

[20]Highly sensitive detection of triazophos pesticide using a novel bio-bar-code amplification competitive immunoassay in a micro well plate-based platform. Du, Pengfei,Jin, Maojun,Zhang, Chan,Chen, Ge,Cui, Xueyan,Zhang, Yudan,Zhang, Yanxin,Zou, Pan,Jiang, Zejun,Cao, Xiaolin,She, Yongxin,Jin, Fen,Wang, Jing. 2018