個人履歷
吳康兵吳康兵,男,博士,1977年2月生
教育及工作背景
1995年9月-1999年6月,蘭州大學,理學學士;
1999年9月-2004年9月,武漢大學碩博連讀,理學博士;
2004年7月-2005年10月,華中科技大學化學與化工學院講師 ;
2005年11月-2010年10月,華中科技大學化學與化工學院副教授;
2010年11月1日起,華中科技大學化學與化工學院教授。
研究方向
電分析化學、納米電化學、電化學感測器、食品安全分析、環境監測
獎勵/榮譽
湖北省傑青(2016年) ;
湖北省自然科學三等獎(2013年);
入選教育部新世紀優秀人才支持計畫(2010年);
湖北省自然科學二等獎(2010年);
華中科技大學青年五四獎章(2006年);
湖北省優秀博士學位論文(2005年);
教學情況
本科生教學:《無機及分析化學》、《分析化學實驗》
研究生教學:《現代電分析化學專題》
主持完成和在研課題
國家自然科學基金面上項目:基於MOFs構效調控的高靈敏選擇性電化學感測機理與方法研究(2018-2021)
湖北省自然科學基金傑出青年基金:環境電化學感測與監測(2016CFA039),主持。在研
973 課題:納米仿生識別與催化增敏機理和方法研究(項目名稱:超靈敏微納生物化學感測器集成自治系統基礎研究,2015CB352100),主持。在研(2015-2020)
國家自然科學基金面上項目:形貌調控納米金屬氧化物增敏機理及超靈敏食品安全分析新方法(21375041),主持。在研(2013-2018)
教育部新世紀優秀人才支持計畫:電化學感測與監測(NCET-11-0187),主持。在研
973 子課題:COD納米電化學增敏機理及現場無線網路化監測(項目名稱:水環境監測無線網路化微感測器晶片系統基礎研究,2009CB320300),主持。已結題。
國家自然科學基金面上項目:電化學/化學調控酚類環境激素納米感測及現場檢測研究(61071052),主持。已結題。
國家自然科學基金青年基金:重金屬離子納米感測及實時檢測的新方法研究(20507006),主持。已結題
廣東省教育部產學研課題:基於納米電化學感測技術快速檢測玩具中重金屬及設備研究(20111158),主持。已結題。
湖北檢驗檢疫局合作課題:分子印跡仿生感測器在食品檢測中的套用研究(200910085),主持。已結題。
發表論文
1、研製出COD納米電化學感測器與線上監測系統,成功用於太湖水體的現場、無線、網路化監測。
2、近五年以第一作者或通訊作者發表SCI論文31篇,總發表論文70餘篇。SCI他引1000餘次,2篇他引超過100次(單篇最高182次)。
近三年來發表的主要論文如下:
1、WangYY, Chen, F, Ye XX, Wu T, Wu KB *, Li CY*. Photoelectrochemical immunosensing of tetrabromobisphenol A based on the enhanced effect of dodecahedral gold nanocrystals/MoS, nanosheets. Sensors & Actuators B Chemical,245 (2017) 205-212.
2、Ji LD, Zhang YY, Yu SJ, Hu SS, Wu KB *. Morphology-tuned preparation of nanostructured resorcinol-formaldehyde carbonized polymers as highly sensitive electrochemical sensor for amaranth. Journal of Electroanalytical Chemistry,779(2016) 169-175.
3、Ji LD, Wang YY, Wu KB *, Zhang WK*. Simultaneous determination of environmental estrogens: diethylstilbestrol and estradiol using Cu-BTC frameworks-sensitized electrode. Talanta,159(2016) 215-221.
4、Chen XR, Wang YY, Tong JH, Xia SH, Zhou YK*, Wu KB *. Electrochemical sensing platform for tetrabromobisphenol A at pM level based on the synergetic enhancement effects of graphene and dioctadecyldimethylammonium bromide. Analytica Chimica Acta,935(2016) 90-96.
5、Ji LD, Cheng Q, Wu KB *, Yang XF*. Cu-BTC frameworks-based electrochemical sensing platform for rapid and simple determination of Sunset yellow and Tartrazine. Sensors & Actuators B Chemical,231(2016) 12-17.
6、Zhang YY, Yan P, Wan QJ *, Wu KB *, Yang NJ*. Morphology-dependent electrochemistry of FeOOH nanostructures. Electrochemistry Communications,68(2016) 10-14.
7、Li CC, Chen XR, Wu KB *, Yu SJ*. Signal enhancement of cetyltrimethylammonium bromide as a highly-sensitive sensing strategy for tetrabromobisphenol A. Journal of Electroanalytical Chemistry,770(2016) 39-43.
8、Chen XR, Ji LD, Zhou YK*, Wu KB *. Synergetic enhancement of gold nanoparticles and 2-mercaptobenzothiazole as highly-sensitive sensing strategy for tetrabromobisphenol A. Scientific Reports,6(2016) 26044-20653.
9、Zhang YY, Cheng Q, Zheng M, Liu X, Wu KB *. Iron oxyhydroxide nanorods with high electrochemical reactivity as a sensitive and rapid determination platform for 4-chlorophenol. Journal of Hazardous Materials,307(2016) 36-42.
10、Cheng Q, Ji LD, Wu KB *, Zhang WK*. Morphology-dependent electrochemical enhancements of porous carbon as sensitive determination platform for ascorbic acid, dopamine and uric acid. Scientific Reports,6(2016) 22309-22318.
11、Chen XR, Ji LD, Zhou Y, Xia SH, Tong JH, Wu KB *. Electrochemical enhancement of long alkyl-chained surfactants for sensitive determination of tetrabromobisphenol A. Electrochimica Acta,190(2016) 490-494.
12、Wang YY, Liu GS, Hou XD, Huang YN, Li CY *, Wu KB *. Assembling gold nanorods on a poly-cysteine modified glassy carbon electrode strongly enhance the electrochemical reponse to tetrabromobisphenol A. Microchimica Acta,183 (2016) 689-696.
13、Wang J, Chen X, Wu KB *, Zhang M, Huang WS*. Highly‐sensitive electrochemical sensor for Cd and Pb based on the synergistic enhancement of exfoliated graphene nanosheets and bismuth. Electroanalysis,28(2016) 63-68.
14、 Wu C, Cheng Q, Wu KB *. Electrochemical functionalization of N-methyl-2-pyrrolidone-exfoliated graphene nanosheets as highly sensitive analytical platform for phenols. Analytical Chemistry,87(2015) 3294-3299.
15、 Cheng Q, Xia SH, Tong JH, Wu KB *. Highly-sensitive electrochemical sensing platforms for food colourants based on the property-tuning of porous carbon. Analytica Chimica Acta,887(2015) 75-81.
16、 Wang YY, Han M, Liu GS, Hou XD, Huang YN, Wu KB*, Li CY*. Molecularly imprinted electrochemical sensing interface based on in-situ-polymerization of amino-functionalized ionic liquid for specific recognition of bovine serum albumin. Biosensors & Bioelectronics,74 (2015) 792-798.
17、Hu LT, Cheng Q, Chen DC, Ma M, Wu KB*. Liquid-phase exfoliated graphene as highly-sensitive sensor for simultaneous determination of endocrine disruptors: diethylstilbestrol and estradiol. Journal of Hazardous Materials,283(2015) 157-163.
18、Wu C, Tang Y, Wan CD, Liu HY, Wu KB*. Enhanced-oxidation and highly-sensitive detection of acetaminophen, guanine and adenine using NMP-exfoliated graphene nanosheets-modified electrode. Electrochimica Acta,166 (2015) 285-292.
19、Zhang YY, Hu LT, Liu X*, Liu BF, Wu KB*. Highly-sensitive and rapid detection of ponceau 4R and tartrazine in drinks using alumina microfibers-based electrochemical sensor. Food Chemistry,166(2015) 352–357.
20、Chen XR, Zheng M, Zhou YK*, Tong JH , Wu KB*. Electrochemical enhancement of acetylene black film as sensitive sensing platform for toxic tetrabromobisphenol A. Rsc Advances,5(2015) 105837-105843.
21、 Wu C, Cheng Q, Wu KB*, Wu G, Li Q*. Graphene prepared by one-pot solvent exfoliation as a highly sensitive platform for electrochemical sensing. Analytica Chimica Acta,825 (2014) 26-33.
22、 Song XJ, Shi Z, Tan XH , Zhang SH, Liu GS, Wu KB*. One-step solvent exfoliation of graphite to produce a highly-sensitive electrochemical sensor for tartrazine. Sensors & Actuators B Chemical,197(2014) 104-108.
23、 Wu C, Cheng Q, Li LQ, Chen JP, Wu KB*. Synergetic signal amplification of graphene-FeO, hybrid and hexadecyltrimethylammonium bromide as an ultrasensitive detection platform for bisphenol A. Electrochimica Acta,115(2014) 434-439.
