当前位置: X-MOL首页全球导师 国内导师 › 王广凤

研究领域

1. 纳米材料组装:可控合成与组装新型功能化金属、半导体、碳材料及量子点等材料,应用于环境、食品及生物分析等领域。 2. 光/电生物传感器构建:用于检测金属离子、生物标记物、病毒DNA及其他疾病相关生物分子。

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

Chen L, Sha L, Qiu YW, Wang GF*, et al. An amplified electrochemical aptasensor based on hybridization chain reactions and catalysis of silver nanoclusters,Nanoscale,7, 3300-3308, 2015 ZhuYH, Wang GF, Jiang H, Chen L, et al. One-step ultrasonic synthesis of graphene quantum dots with high quantum yield and their application in sensing alkaline phosphatase,Chemical Communications, 5, 948-951, 2015 Wang GF, Xu G, Zhu YH, Zhang XJ*, A “Turn-on” Carbon nanotube-Ag Nanoclusters Fluorescent Sensor for Sensitive and Selective Detection of Hg2+ with Cyclic Amplification of Exonuclease III Activity, Chemical Communications, 50, 747-750, 2014 Wang GF*, Zhu YH, Chen L, Wang L, Zhang XJ*, Target-induced quenching for highly sensitive detection of nucleic acids based on lable-free luminescent supersandwich DNA/silver nanoclusters, Analyst, 139,165-169, 2014 He XP, Wang GF*, Xu G, Zhu YH, Chen L, Zhang XJ*, A Simple, Fast and Sensitive assay for the detection of DNA, Thrombin and Adenosine triphosphate based on Dual-Hairpin DNA structure, Langmuir, 29,14328-14344, 2013 Xu G, Wang GF*, He XP, Zhu YH, Chen L, Zhang XJ*, An Ultrasensitive Electrochemical Method for Detection of Ag+ Based on Cyclic Amplification of Exonuclease III Activity on Cytosine- Ag+-Cytosine, Analyst 138, 6900-6906, 2013 Ji R, Wang LL, Yu LT, Geng BY, Wang GF*, Zhang XJ*, Effective Electrocatalysis Based on Ag2O Nanowire Arrays Supported on Cu Substrate, ACS Applied Materials & Interfaces 5, 10465-10472, 2013 Wang GF*, He XP, Zhu YH, Chen L, Zhang XJ*, Wang L, G-quadruplex-linked Supersandwich DNA Structure for Electrochemical Amplified Detection of Thrombin, Electroanalysis 25, 1960-1966, 2013 Wang GF, He XP, Chen L, Zhu YH, Zhang XJ*, Wang L, Conformational Switch for Cisplatin with Hemin/G-Quadruplex DNAzyme Supersandwich Structure, Biosensors & Bioelectronics 50, 210-216, 2013. Zhang XJ*, Ji R, Wang LL, Yu LT, Jie Wang, Geng BY, Wang GF*, Controllable Synthesis of Silver Nanodendrites on Copper Rod and Its Application to Hydrogen Peroxide and Glucose Detection, CrystEngComm, 15, 1173-1178, 2013 Wang GF*, Zhu YH, Nan HH, Ma WQ, Zhang XJ*, Study on porous Cu-based enzyme-free glucose electrochemical sensor with different entrapping agents, Micro & Nano Letters, 8, 395-399, 2013 Wang GF, Gu AX, Huang Y, Fang B, Geng BY, Zhang XJ*, Non-enzymatic Electrochemical Sensing of Glucose, Microchim. Acta 180, 161-186, 2013 (Invited Review) Wang GF*, He XP, Xu G, Chen L, Zhu YH, Zhang XJ*, Wang L, Detection of T4 Polynucleotide Kinase Activity with Immobilization of TiO2 Nanotubes and Amplification of Au Nanoparticles Biosensors & Bioelectronics 43, 125-130, 2013 Wang GF*, He XP, Wang L, Zhang XJ*, A Folate Receptor Electrochemical Sensor Based on Terminal Protection and Supersandwich DNAzyme Amplification, Biosensors & Bioelectronics 42, 337–341, 2013 王广凤, 朱艳红, 陈玲, 王伦*, 功能性纳米材料在电化学免疫传感器中的应用, 分析化学, 41, 608-615, 2013 Wang GF*, Zhou X, Zhang G, Huang H, Zhang XJ, Wang L*, Electrochemical Immunosensor with Graphene/Gold Nanoparticles Platform and Ferrocene Derivatives Label, Talanta 103,75–80, 2013 Wang GF, Huang H, Wang BJ, Zhang XJ, Wang L*, A Supersandwich Multienzyme-DNA Label Based Electrochemical Immunosensor, Chem. Comm., 48, 720–722, 2012 Wang GF, Huang H, Zhang XJ, Wang L*, Electrically Contacted Enzyme based on Dual Hairpin DNA Structure and its Application for Amplified Detection of Hg2+, Biosens. Bioelectron., 35, 108–114, 2012 Zhang XJ*, Wang LL, Ji R, Yu LT, Wang GF*, Nonenzymatic Glucose Sensor Based on Cu-Cu2S Nanocompsite Electrode, Electrochem. Commun., 24, 53-56, 2012 Wang GF, He XP, Wang BJ, Zhang XJ, Wang L*, Electrochemical Amplified Detection of Hg2+ Based on Supersandwich DNA Structure, Analyst, 137, 2036–2038, 2012

推荐链接
down
wechat
bug