张云,1982年出生于湖南。博士/博士后,教授,博士研究生导师。广西八桂青年拔尖人才,广西杰出青年科学基金获得者,广西青年科技奖获得者。
E-mail:zy_hnu@163.com;zy@glut.edu.cn。
一、教育与工作经历
2010.07—至今:桂林理工大学,化学与生物工程学院,教授(2016),博士研究生导师(2021)。
2018.11—2019.09:以色列耶路撒冷希伯来大学,化学系,高级访问学者。
2014.11—2015.11:英国牛津大学,化学系,博士后研究员。
2005.09—2010.09:湖南大学,化学生物传感与计量学国家重点实验室,分析化学专业,获理学博士学位。
2001.09—2005.06:湖南大学,化学化工学院,化学专业,获理学学士学位。
二、科研工作
主要研究领域为化学与生物传感。重点研究方向包括:POCT;丁达尔效应增强纳米传感;纸芯片批量制备及创新应用;便携式电化学传感。主持包括国家自然科学基金(4项)、广西八桂青年拔尖人才、广西杰出青年科学基金、中央引导地方科技发展专项资金、广西高等学校千名中青年骨干教师培育计划等在内的省部级及以上科研项目10余项。在Anal. Chem.、Chem. Commun.、Biosens. Bioelectron.等国际重要学术期刊发表SCI收录论文近80篇(其中一区/二区TOP期刊论文43篇)。H因子25。获授权中国发明专利10件。研究成果被Chemistry World、X-MOL、纳米人、搜狐科技等科技媒体专题报道多次。
三、主要获奖与荣誉
2023:广西八桂青年拔尖人才。
2021:广西“黄文秀式好青年”;广西高等教育自治区级教学成果特等奖。
2020:桂林理工大学“贤丰优秀人才发展奖”。
2019:第十五届广西青年科技奖;桂林理工大学2017-2018年“科技工作先进个人”、桂林理工大学“优秀青年研究生指导教师”。
2018:首批桂林理工大学屏风学者(A类);被Elsevier出版集团授予SCI一区TOP期刊Biosensors & Bioelectronics的“Outstanding Contribution in Reviewing”。
2017:中国冶金教育学会优秀硕士学位论文指导教师;首批广西高等学校千名中青年骨干教师培育对象。
2016:桂林理工大学2013-2016年“十佳青年科技工作者”。
2015:广西科学技术奖(自然科学)二等奖。
四、学术论著(*通讯作者)
2024
[1] Wenju Yan, Xuefei Qin, Xueqing Sang, Xueying Zhou, Yanying Zheng, Yali Yuan*, Yun Zhang. DNAzyme amplified dispersion state change of gold nanoparticles and its dual optical channels for ultrasensitive and facile detection of lead ion in preserved eggs. Food Chemistry, 2024, 435, 137538.
[2] Lili Yuan, Yongkang Yan, Yiyue Tang, Xueer Huang, Jiajing Liao, Jianmei Zou, Jinfang Nie*, Lang Zhang, Shan Liao, Yun Zhang*. Distance-based quantitative determination of pyrophosphate ions with a Haus-made microfluidic paper-based device using the metal–organic framework NH 2 -MIL-88 (Fe). Microchemical Journal, 2024, 203, 110871.
[3] Xueer Huang, Yongkang Yan, Lang Zhang, Lili Yuan, Yiyue Tang, Xinqing Jiang Wenli Zhu, Yali Yuan, Jinfang Nie*, Yun Zhang*. Simple, sensitive, colorimetric detection of pyrophosphatevia the analyte‑triggered decomposition of metal–organic frameworks regulating their adaptive multi‑color Tyndall effect. Analytical and Bioanalytical Chemistry, 2024, 416:1821-1832.
[4] Yongkang Yan, Xueer Huang, Lili Yuan, Yiyue Tang, Wenli Zhu, Hancong Du, Jinfang Nie*, Lang Zhang, Shan Liao, Xuehui Tang, Yun Zhang*. Single‑step batch fabrication of microfluidic paper‑based analytical devices with a 3D printer and their applications in nanoenzyme‑enhanced visual detection of dopamine. Analytical and Bioanalytical Chemistry, 2024, 416, 4131-4141.
[5] Yiyue Tang, Xiaomei Mo, Lili Yuan, Xueer Huang, Yongkang Yan, Wenying Jin ,Lang Zhang*, Xinqing Jiang, Jinfang Nie, Yun Zhang*. Tyndall-effect-amplified colorimetric detection of trypsin based on the analyte-regulated formation of Au nanoparticle network with no visual change in surface plasmon resonance response. Sensors and Actuators: B. Chemical, 2024, 405, 135254.
[6] Lin Li*, Jie Zhang, Lanlan Liu, Chen Gu, Xiongzhi Wu, Liqiang Yan*, Yun Zhang. Fabrication of an effective peroxynitrite electrochemical sensing platform and studying the inhibitory effect of tea polyphenols on the oxidative damage of lead-treated cells. Microchemical Journal, 2024, 197, 109855.
2023
[7] Chang Liu, Zihao Deng, Yanan Deng, Kaijing Yuan, Miao Hu, Lili Yuan, Jianmei Zou*, Jinfang Nie*, Yun Zhang*. Simple, universal colorimetric strategy for amplified detection of nanomolar toxic heavy metal ions based on multi-component complexation and Tyndall effect. Sensors and Actuators: B. Chemical, 2023, 380, 133333.
[8] Fei Hua, Fenglan Pan, Juanhua Yang, Yongkong Yan, Xueer Huang, Yali Yuan, Jinfang Nie*, Hua Wang*, Yun Zhan*. Quantitative colorimetric sensing of heavy metal ions via analyte-promoted growth of Au nanoparticles with timer or smartphone readout. Analytical and Bioanalytical Chemistry, 2023, 415, 2705-2713.
[9] Fenglan Pan, Fei Hua, Yongkang Yan, Xueer Huang, Lili Yuan, Yiyue Tang, Yali Yuan*, Jinfang Nie*, Yun Zhang*. Sensitive, specific, smartphone-based quantitative sensing of glyphosate by integrating analyte-triggered anti-aggregation/anti-autocatalysis of metal nanoparticles with Tyndall-effect colorimetric signaling. Microchemical Journal, 2023, 190, 108707.
[10] Guangping Xia, Guihua Ruan*, Yipeng Huang, Haoyun Hu, Shi Yun, Bingmei Lai, Zhenyun Li, Yun Zhang, Ningli Tang*. Highly efficient enrichment of eugenol anesthetic in aquatic products using magnetic nanospheres dectorate covalent organic framework microflowers. Microchemical Journal, 2023, 195, 109362.
[11] Huahong Liu, Yuxin Wu, Ziwei Zhao, Zhi Liu*, Renjun Liu, Yuelan Pang, Chun Yang, Yun Zhang, Jinfang Nie*. Varietal Authenticity Assessment of QTMJ Tea Using Non-Targeted Metabolomics and Multi-Elemental Analysis with Chemometrics. Foods, 2023, 12, 4114.
[12] Jing Wan, Jianmei Zou*, Shu-Jing Zhou, Fenglan Pan, Fei Hua, Yulan Zhang, Jinfang Nie, Yun Zhang*. A bimetallic (Ni/Co) metal–organic framework with excellent oxidase-like activity for colorimetric sensing of ascorbic acid. Analytical Methods, 2023, 15, 1819.
[13] Xueqing Sang, Wenju Yan, Xuefeng Qin, Xueying Zhou, Wenying Jin, Yali Yuan*, Yun Zhang, Wenxin Niu*. Non-instrumental and ultrasensitive detection of Acetamiprid residue based on Tyndall effect silver nanoparticles. Chinese Journal of Analytical Chemistry, 2023, 51.5, 100194.
[14] Zhenni Lan, Qing He, Mingxia Zhang, Huahong Liu, Liusen Fang 1and Jinfang Nie*. Assessing the Effects of Cadmium Stress on the Growth, Physiological Characteristics, and Metabolic Profiling of Rice (Oryza sativa L.) Using HPLC-QTOF/MS. Chemosensors, 2023, 11, 558.
2022
[15] Yao Sun, Kaijing Yuan, Xiaomei Mo, Xuejiang Chen, Yanan Deng, Chang Liu, Yali Yuan, Jinfang Nie*, Yun Zhang*. Tyndall-Effect-inspired assay with gold nanoparticles for the colorimetric discrimination and quantification of mercury ions and glutathione. Talanta (SCI一区TOP), 2022, 238, 122999.
[16] Yanan Deng, Zihao Zhang, Yuanhao Pang, Xueying Zhou, Yu Wang, Yun Zhang, Yali Yuan*. Common materials, extraordinary behavior: An ultrasensitive and enantioselective strategy for D-Tryptophan recognition based on electrochemical Au@p-L-cysteine chiral interface. Analytica Chimica Acta (SCI一区TOP), 2022, 1227, 340331.
[17] Qing He, Qi’er Mu, Zhongxun Wei, Bin Peng, Zhenni Lan, Yun Zhang*, Weihao Yao, Jinfang Nie*. Investigation of the binding behavior of bioactive 7-methoxyflavone to human serum albumin by coupling multi-spectroscopic with computational approaches. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2023, 285, 121920.
[18] Miao Hu, Wencheng Xiao, Yijing Chen, Qing He, Kaijing Yuan, Xueer Huang, Wenying Jin,* Jinfang Nie,* Yun Zhang*. Analytetriggered in situ “of–on” of Tyndall efect for smartphonebased quantitative nanosensing of Ag+ ions. Photochemical & Photobiological Sciences, 2022, https://doi.org/10.1007/s43630-022-00341-w.
[19] Kaijing Yuan, Yao Sun, Fenchun Liang, Fenglan Pan, Miao Hu, Fei Hua, Yali Yuan,* Jinfang Nie*, Yun Zhang*. Tyndall-effect-based colorimetric assay with colloidal silver nanoparticles for quantitative point-of-care detection of creatinine using a laser pointer pen and a smartphone. RSC Advances, 2022, 12, 23379–23386.
2021
[20] Zihao Deng,‡ Wenying Jin,‡ Qiaobo Yin, Jinkun Huang, Ziheng Huang, Haiyan Fu,* Yali Yuan, Jianmei Zou, Jinfang Nie, and Yun Zhang.* Ultrasensitive visual detection of Hg2+ ions via the Tyndall effect of gold nanoparticles. Chemical Communications (SCI一区TOP, IF6.16; Nature Index遴选顶级期刊之一), 2021, 57, 2613-2616. 外封底论文.
[21] Mengyuan Yin, Yuqi Wan, Shuai Li, Xiaoting Zhao, Wenwen Zhang, Yun Zhang, Hua Wang.* Carbon nitride-doped melamine-silver adsorbents with peroxidase-like catalysis and visible-light photocatalysis: Colorimetric detection and detoxification removal of total mercury. Journal of Hazardous Materials (SCI一区TOP, IF9.04), 2021, 408, 124978.
[22] Jinkun Huang, Xiaomei Mo, Haiyan Fu*, Yao Sun, Qian Gao, Xuejiang Chen, Jianmei Zou, Yali Yuan, Jinfang Nie, Yun Zhang*. Tyndall-effect-enhanced supersensitive naked-eye determination of mercury (II) ions with silver nanoparticles. Sensors and Actuators: B. Chemical (SCI一区TOP), 2021, 344,130218.
[23] Xuejiang Chen, Yao Sun, Xiaomei Mo, Qian Gao, Yanan Deng, Miao Hu, Jianmei Zou, Jinfang Nie*, Yun Zhang*. On-site, rapid and visual method for nanomolar Hg2+ detection based on the thymine–Hg2+–thymine triggered “double” aggregation of Au nanoparticles enhancing the Tyndall effect. RSC Advances, 2021, 11, 36859–36865.
[24] Jiamei Pu, Mingbin Liu, Hongbo Li,* Weihua Zhao, SuqinWang, YunZhang,* and Ruqin Yu.* One-Step Enzyme-Free Detection of the miRNA Let-7a via Twin-Stage Signal Amplification. Talanta (SCI一区TOP), 2021, 230, 122158.
[25] Qian Gao, Jing Wan, Xuejiang Chen, Xiaomei Mo, Yao Sun, Jianmei Zou,* Jinfang Nie, Yun Zhang*. A novel strategy for sensitive and rapid detection of ascorbic acid via the Tyndall effect of cobalt hydroxide nanoflakes. RSC Advances, 2021, 11, 39306–39310.
[26] Jianmei Zou,* Qian Gao, Jinfang Nie, Yun Zhang, Cheng Jin, Enzymatic dephosphorylation-triggered self-assembly of DNA amphiphiles. RSC Advances, 2021, 11, 18322–18325.
[27] Xiaomei Mo, Jinkun Huang, Yao Sun, Xuejiang Chen, Yanan Deng, Chang Liu, Wenying Jin*, Jinfang Nie*, Yun Zhang*. Simple, rapid, portable and quantitative sensing of Fe3+ ions via analyte-triggered redox reactions mediating Tyndall effect enhancement of Au nanoparticles. Microchemical Journal, 2022, 174, 107075.
[28] Zhourui Xiao,† Han Meng,† Xuefei Qin, Xueqing Sang, Yun Zhang,* and Yali Yuan.* The functionalization of gold nanoparticles as a novel platform for the highly efficient electrochemical detection of silver ions. Analyst, 2021, 146, 597–604.
2020
[29] Yuanyuan Cai, Fengxiang Wang, Yue Hua, Huan Liu, Mengyuan Yin, Chunxian Zhang, Yun Zhang, and Hua Wang. A fluorimetric testing strip for the visual evaluation of mercury in blood using copper nanoclusters with DMSO-enhanced fluorescence and stability. Nanoscale (SCI一区TOP, IF6.89), 2020, 12, 24079-24084.
[30] Maomao Yao,‡ Jinkun Huang,‡ Zihao Deng, Wenying Jin, Yali Yuan, Jinfang Nie,* Hua Wang,* Fuyou Du, and Yun Zhang.* Transforming glucose into fluorescent graphene quantum dots via microwave radiation for sensitive detection of Al3+ ions based on aggregation-induced enhanced emission Analyst (SCI二区, IF3.98), 2020, 145, 6981–6986.
[31] Qilin Wen, Xiaolin Liang, Hongcheng Pan, Jianping Li, Yun Zhang, Wenyuan Zhu,* and Zhixiang Long.* Rapid and sensitive electrochemical detection of microRNAs by gold nanoparticle-catalyzed silver enhancement Analyst (SCI二区, IF3.98), 2020, 145, 7893–7897.
[32] Luping Feng, Jiani Yang, Sheng Zhang, Lixiang Zhang, Xi Chen, Pan Li, Yuan Gao, Shujing Xie, Yun Zhang,* and Hua Wang. A capillary-based fluorimetric platform for the evaluation of glucose in blood using gold nanoclusters and glucose oxidase in the ZIF-8 matrix. Analyst (SCI二区, IF3.98), 2020, 145, 5273–5279.
[33] Yijing Chen,‡ Lang Zhang,‡ Jinkun Huang,‡ Zihao Deng, Yali Yuan,* Jianmei Zou, Jinfang Nie,* and Yun Zhang.* Enhanced functional DNA biosensor for distance-based read-by-eye quantification of various analytes based on starch-hydrolysis-adjusted wettability change in paper devices. RSC Advances, 2020, 10, 28121–28127.
2019
[34] Wencheng Xiao,# Zihao Deng,# Jinkun Huang,# Ziheng Huang, Miaomiao Zhuang, Yali Yuan, Jinfang Nie,* and Yun Zhang.* Highly Sensitive Colorimetric Detection of a Variety of Analytes via the Tyndall Effect. Analytical Chemistry (SCI一区TOP, IF6.35; Nature Index遴选顶级期刊之一), 2019, 91(23), 15114-15122. 被纳米人专题报道.
[35] Miaomiao Zhuang,‡ Yanwen Zhang,‡ Shaohong Zhou, Yun Zhang, Kemin Wang, Jinfang Nie,* Jianbo Liu.* Uricase-containing coacervate microdroplets as enzyme active membrane-free protocells for detoxification of uric acid in serum. Chemical Communications (SCI一区TOP, IF6.16; Nature Index遴选顶级期刊之一), 2019, 55(92), 13880-13883.
[36] Wencheng Xiao, Yiming Gao, Yun Zhang,* Jiao Li, Zhaoying Liu, Jinfang Nie,* Jianping Li. Enhanced 3D paper-based devices with a personal glucose meter for highly sensitive and portable biosensing of silver ion. Biosensors and Bioelectronics (SCI一区TOP, IF10.26), 2019, 137, 154-160.
[37] Zhaoying Liu, Wenying Jin,* Fangxiao Wang, Tuanchuan Li, Jinfang Nie,* Wencheng Xiao, Qing Zhang, Yun Zhang.* Ratiometric fluorescent sensing of Pb2+ and Hg2+ with two types of carbon dot nanohybrids synthesized from the same biomass. Sensors and Actuators: B. Chemical (SCI一区TOP, IF6.39), 2019, 296, 126698.
[38] Haiyan Fu,* Qiaobo Yin, Huili Wang, Jinfang Nie, Wencheng Xiao, Zhaoying Liu, Yijing Chen, Yun Zhang.* Target-triggered in situ autocatalysis in nanopore membrane for point-of-care testing of sub-nanomolar Ag+. Sensors and Actuators: B. Chemical (SCI一区TOP, IF6.39), 2019, 287, 290-295.
[39] Xuefei Qin, Yuping Lu, Mengmeng Bian, Yali Yuan*, Yun Zhang. Influence of gold nanoparticles in different aggregation states on the fluorescence of carbon dots and its application, Analytica Chimica Acta (SCI二区, 影响因子5.25), 2019, 1091, 119-126.
[40] Jiao Li, Jie Xu, Wenying Jin, Zhongsheng Yi,* Chenbo Cai, Xuefen Huang, Jinfang Nie* and Yun Zhang. Fluorescent kinetics combined with fourth-order calibration for the determination of diclofenac sodium in environmental water. Analytical and Bioanalytical Chemistry, 2019, 411(10), 2019-2029.
[41] 边孟孟, 张云, 袁亚利.* 基于微流控的电化学生物传感平台研究进展. 分析科学学报, 2019, 35(5), 657-664.
2018
[42] Lang Zhang†, Yali Yuan†, Yun Zhang,* Zhaoying Liu, Wencheng Xiao, Jinfang Nie*, and Jianping Li. Equipment-Free Quantitative Aptamer-Based Colorimetric Assay Based on Target-Mediated Viscosity Change. ACS Omega, 2018, 3(2), 1451-1457.
[43] Jianping Li,* Xionghui Ma, Mengxi Li, Yun Zhang. Does polysaccharide is an idea template selection for glycosyl imprinting? Biosensors and Bioelectronics, (SCI一区TOP, IF10.26), 2018, 99, 438-442.
[44] Xiaping Zhu, Yali Yuan*, Yun Zhang, Jianping Li,* Hongcheng Pan. Application of different carbon materials for carbon paste electrodes to simultaneous electrochemical detection of four DNA bases with high simpleness. Electroanalysis, 2018, 30, 1723-1733.
[45] 王兵月, 乐惠泽, 聂瑾芳,* 肖文成, 刘召应, 张云.* 基于目标介导纳米金凝集的Ag+目视检测方法. 化学传感器, 2018, 1, 48-54. 封面论文.
2017
[46] Hui-Li Wang, Yun Zhang,* Rong-Xing Li, Jin-Fang Nie,* Afaf H. El-Sagheer, Tom Brown, Zhao-Ying Liu and Wencheng Xiao. Instrument-free quantitative gold nanoparticle-based liquid-phase colorimetric assays for use in resource-poor environments. Chemical Communications (SCI一区TOP, IF6.16; Nature Index遴选顶级期刊之一), 2017, 53(60), 8407-8410. 外封底论文.
[47] Juanhua Yang, Yun Zhang,* Lang Zhang, Huili Wang, Jinfang Nie,* Zhongxiang Qin, Jiao Li and Wencheng Xiao. Analyte-triggered autocatalytic amplification combined with gold nanoparticle probes for colorimetric detection of heavy-metal ions. Chemical Communications (SCI一区TOP, IF6.16; Nature Index遴选顶级期刊之一), 2017, 53(54), 7477-7480.
[48] Haiyan Fu,* Juanhua Yang, Lin Guo, Jinfang Nie,* Qiaobo Yin, Lang Zhang, Yun Zhang.* Using the Rubik's Cube to directly produce paper analytical devices for quantitative point-of-care aptamer-based assays. Biosensors and Bioelectronics (SCI一区TOP, IF10.26), 2017, 96, 194-200.
[49] Lang Zhang, Jinfang Nie,* Huili Wang, Juanhua Yang, Bingyue Wang, Yun Zhang* and Jianping Li. Instrument-free quantitative detection of alkaline phosphatase using paper-based devices. Analytical Methods, 2017, 9(22), 3375-3379.
[50] Shangwang Le, Hui Zhou, Jinfang Nie,* Chaohong Cao, Jiani Yang,* Hongcheng Pan, Jianping Li and Yun Zhang.* Fabrication of paper devices via laser-heating-wax-printing for high-tech enzyme-linked immunosorbent assays with low-tech pen-type pH meter readout. Analyst (SCI二区, IF4.01), 2017, 142, 511-516.
2016
[51] Yun Zhang,* Jia-Ni Yang, Jin-Fang Nie,* Juan-Hua Yang, Dong Gao, Lang Zhang, Jian-Ping Li. Enhanced ELISA using a handheld pH meter and enzyme-coated microparticles for the portable, sensitive detection of proteins. Chemical Communications (SCI一区TOP, IF6.16; Nature Index遴选顶级期刊之一), 2016, 52, 3474-3477. 内封底论文; 被X-MOL专题报道.
[52] Jin-Fang Nie, Tom Brown, Yun Zhang.* New two dimensional liquid-phase colorimetric assay based on old iodine–starch complexation for the naked-eye quantitative detection of analytes. Chemical Communications (SCI一区TOP, IF6.16; Nature Index遴选顶级期刊之一), 2016, 52: 7454-7457. 内封底论文; 被X-MOL专题报道.
[53] Yun Zhang,* Dong Gao, Jin-Long Fan, Jin-Fang Nie,* Shang-Wang Le, Wen-Yuan Zhu, Jia-Ni Yang, Jian-Ping Li. Naked-eye quantitative aptamer-based assay on paper device. Biosensors and Bioelectronics (SCI一区TOP, IF10.26), 2016, 78: 538-546.
[54] Jin-Fang Nie,* Bo Li, Yun Zhang,* Jin-Long Fan, Zhong-Sheng Yi, Zhi-Rong Cai. High-order calibration for the spectrofluorimetric determination of pesticides based on photochemical derivatization. A solution of the problems of inner-filter effects and matrix interferences in complex environmental water. Chemometrics and Intelligent Laboratory Systems, 2016, 156: 36-53.
2015
[55] Yun Zhang,* Jin-Long Fan, Jin-Fang Nie,* Shang-Wang Le, Wen-Yuan Zhu, Dong Gao, Jia-Ni Yang, Song-Bai Zhang, Jian-Ping Li. Timing readout in paper device for quantitative point-of-use hemin/G-quadruplex DNAzyme-based bioassays. Biosensors and Bioelectronics (SCI一区TOP, IF10.26), 2015, 73: 13-18.
[56] Jian-Ping Li,* Lian-Ming Zhang, Ge Wei, Yun Zhang, Ying Zeng. Highly sensitive and doubly orientated selective molecularly imprinted electrochemical sensor for Cu2+. Biosensor and Bioelectronics (SCI一区TOP, IF10.26), 2015, 69: 316-320.
[57] Jianping Li,* Mi Sun, Xiaoping Wei, Lieping Zhang, Yun Zhang. An electrochemical aptamer biosensor based on “gate-controlled” effect using β-cyclodextrin for ultra-sensitive detection of trace mercury. Biosensors and Bioelectronics (SCI一区TOP, IF10.26), 2015, 74: 423-426.
2014
[58] Yun Zhang,* Cai-Bin Zhou, Jin-Fang Nie,* Shang-Wang Le, Qun Qin, Fang Liu, Yu-Ping Li, Jian-Ping Li. Equipment-free quantitative measurement for microfluidic paper-based analytical devices fabricated using the principles of movable-type printing. Analytical Chemistry (SCI一区TOP, IF6.35; Nature Index遴选顶级期刊之一), 2014, 86(4): 2005-2012.
[59] Yun Zhang,* Fang Liu, Jin-Fang Nie,* Fu-Yang Jiang, Cai-Bin Zhou, Jia-Ni Yang, Jin-Long Fan, Jian-Ping Li. An electrochemical sensing platform based on local repression of electrolyte diffusion for single-step, reagentless, sensitive detection of a sequencespecific DNA-binding protein. Analyst (SCI二区, IF4.01), 2014, 139(9): 193-2198.
[60] Jian-Ping Li,* Yi-Juan Shao, Wei-Ling Yin, Yun Zhang. A strategy for improving the sensitivity of molecularly imprinted electrochemical sensors based on catalytic copper deposition. Analytica Chimica Acta (SCI二区, IF5.25), 2014, 817: 17-22.
2013
[61] Jin-Fang Nie, Yuan-Zhi Liang, Yun Zhang,* Shang-Wang Le, Dun-Nan Li, Song-Bai Zhang.* One-step patterning of hollow microstructures in paper by laser cutting to create microfluidic analytical devices. Analyst (SCI二区, IF4,01), 2013, 138(2): 671-676.
[62] Jian-Ping Li,* Qian Xu, Cong Fu, Yun Zhang. A dramatically enhanced electrochemiluminescence assay for CA125 based on dendrimer multiply labeled luminol on Fe3O4 nanoparticles. Sensors and Actuators B-Chemical (SCI一区TOP, IF6,39). 2013, 185: 146-153.
2012
[63] Jin-Fang Nie, Yun Zhang,* Li-Wen Lin, Cai-Bin Zhou, Shu-Huai Li, Lian-Ming Zhang, Jian-Ping Li. Low-cost fabrication of paper-based microfluidic devices by one-step plotting. Analytical Chemistry (SCI一区TOP, IF6.35; Nature Index遴选顶级期刊之一), 2012, 84(15): 6331-6335.
[64] Jian-Ping Li,* Yu-Ping Li, Yun Zhang, Ge Wei. Highly sensitive molecularly imprinted electrochemical sensor based on the double amplification by an inorganic Prussian blue catalytic polymer and the enzymatic effect of glucose oxidase. Analytical Chemistry, 2012 (SCI一区TOP, IF6.35; Nature Index遴选顶级期刊之一), 84(4): 1888-1893.
[65] Jin-Fang Nie, Yun Zhang,* Hua Wang, Shi-Ping Wang, Guo-Li Shen.* Superhydrophobic surface-based magnetic electrochemical immunoassay for detection of Schistosoma japonicum antibodies. Biosensors and Bioelectronics (SCI一区TOP, IF10.26), 2012, 33(1): 23-28.
[66] Jin-Fang Nie, Yun Zhang,∗ Zhong-Sheng Yi, Hong-Yan Zou, Hai-Yan Fu, Hai-Long Wu. Advanced chemometric algorithm coupled to subspace projection technique between original and pseudo samples: A snapshot of chemical rank estimation for high-order data. Chemometrics and Intelligent Laboratory Systems, 2012, 118: 211-218.
[67] Jian-Ping Li, Ge Wei, Yun Zhang. Chapter 2 - Molecularly imprinted polymers as recognition elements in sensors.In: Song-Jun Li, Yi Ge, Sergey A. Piletsky, Joseph Lunec (Ed.). Molecularly Imprinted Sensors, Elsevier Press, Amsterdam, 2012, 35-55.
2006-2011
[68] Yun Zhang, Hua Wang,* Jian-Ping Li, Jin-Fang Nie, Yu-Wei Zhang, Guo-Li Shen,* Ru-Qin Yu. Nitrocellulose strip array assembled on superhydrophobic surface: An aqueous solution diffusion-localized platform for multianalyte immunogold staining assays. Biosensors and Bioelectronics (SCI一区TOP, IF10.26), 2011, 26 (7): 3272-3277.
[69] Guang-Yu Shen, Yun Zhang. Highly sensitive electrochemical stripping detection of hepatitis B surface antigen based on copper-enhanced gold nanoparticle tags and magnetic nanoparticles. Analytica Chimica Acta (SCI二区, IF5.25), 2010, 674(1): 27-31.
[70] Sui-Ping Wang, Yong Lei, Yun Zhang, Jian Tang, Guo-Li Shen,* Ru-Qin Yu. Hydroxyapatite nanoarray-based cyanide biosensor. Analytical Biochemistry, 2010, 398(2): 191-197.
[71] Yun Zhang, Hua Wang,* Jin-Fang Nie, Yu-Wei Zhang, Guo-Li Shen,* Ru-Qin Yu. Individually addressable microelectrode arrays fabricated with gold-coated pencil graphite particles for multiplexed and high sensitive impedance immunoassays. Biosensors and Bioelectronics (SCI一区TOP, IF10.26), 2009, 25(1): 34-40.
[72] Yun Zhang, Hua Wang,* Jin-Fang Nie, Hui Zhou, Guo-Li Shen,* Ru-Qin Yu. Mussel-inspired fabrication of encoded polymer films for electrochemical identification. Electrochemistry Communications (SCI二区, IF4.19), 2009, 11(10): 1936-1939.
[73] Yu-Wei Zhang, Yun Zhang, Hua Wang,* Ba-Ni Yan, Guo-Li Shen, Ru-Qin Yu. An enzyme immobilization platform for biosensor designs of direct electrochemistry using flower-like ZnO crystals and nano-sized gold particles. Journal of Electroanalytical Chemistry, 2009, 627(1-2): 9-14.
[74] Yun Zhang, Hua Wang,* Ba-Ni Yan, Yu-Wei Zhang, Ping Yin, Guo-Li Shen,* Ru-Qin Yu. A rapid and efficient strategy for creating super-hydrophobic coatings on various material substrates. Journal of Materials Chemistry (SCI一区TOP, IF6.26), 2008, 18(37): 4442-4449. 被Chemistry World专题报道.
[75] Yun Zhang, Hua Wang,* Ba-Ni Yan, Yu-Wei Zhang, Ji-Shan Li, Guo-Li Shen,* Ru-Qin Yu. A reusable piezoelectric immunosensor using antibody-adsorbed magnetic nanocomposite. Journal of Immunological Methods, 2008, 332(1-2): 103-111.
[76] Jin-Fang Nie, Hai-Long Wu,* Xue-Mei Wang, Yun Zhang, Shao-Hua Zhu, Ru-Qin Yu. Determination of testosterone propionate in cosmetics using excitation-emission matrix fluorescence based on oxidation derivatization with the aid of second-order calibration methods. Analytica Chimica Acta (SCI二区, IF5.25), 2008, 628(1): 24-32.
[77] Hui Feng, Hua Wang,* Yun Zhang, Ba-Ni Yan, Guo-Li Shen, Ru-Qin Yu. A direct electrochemical biosensing platform constructed by incorporating carbon nanotubes and gold nanoparticles onto redox poly(thionine) film. Analytical Science, 2007, 23(2): 235-239.
[78] Hua Wang,* Yun Zhang, Ba-Ni Yan, Li Liu, Shi-Ping Wang, Guo-Li Shen, Ru-Qin Yu. Rapid, simple, and sensitive immunoagglutination assay with SiO2 particles and quartz crystal microbalance for quantifying Schistosoma japonicum antibodies. Clinical Chemistry (SCI一区TOP, IF8.64), 2006, 52(11): 2065-2071.