簡 歷

申大忠 湖南常德市石門縣人 土家族。

1979.09～1983.07 成都地質(zhì)學院二系巖礦分析專業(yè)學習 學士

1983.08～1988.08 山東礦業(yè)學院地質(zhì)系任助教

1988.09～1991.03 湖南大學分析化學專業(yè)學習 碩士

1991.03～1994.05 湖南大學分析化學專業(yè)學習 博士

1994.06～2003.10 山東大學化學院任教 獲得教授和博士生導師職稱 是山東大學化學與化工學院分析化學所副所長

1998.11～2000.10 香港城市大學生物及化學系 博士后

2003.10至今 山東師范大學化學院任教 并擔任化學實驗中心主任。

山東省第十一屆政協(xié)委員， 濟南市第十三屆政協(xié)常委，農(nóng)工黨山東師范大學支部主委, 濟南市少數(shù)民族聯(lián)誼會理事

申大忠教授早年較大的挫折為高考時志愿重點與非重點表因高中學校拿錯，而使其大致處于清華北大梯度（剛恢復高考沒幾年，他考了三百六十多，當時中南和湖大錄取線三百二十左右）可足以實現(xiàn)寫在“非重點表”中的上海交通大學的成績只實現(xiàn)了寫在“重點表”中的成都地質(zhì)學院。他經(jīng)常說自己為此多花了很多努力。

他高中時最擅長的是物理，其次是數(shù)學，化學其實第三并出現(xiàn)了高考時唯一的失誤，他自己說一直對此耿耿于懷，他有一個方程式忘配平了，扣了他兩三分，讓他非常生氣，索性一跺腳和化學較上勁了......

分析化學 高等儀器分析 化學計量學 化學傳感器 納米分析化學

研究領域和興趣：

電分析化學、化學及生物傳感器、生物芯片技術

化學計量學

離子色譜

一、已完成項目

1. 壓電傳感器應用于超薄有序分子膜特性研究 國家自然科學基金 1996～1998

2. 非石英晶體類的壓電傳感檢測研究 國家自然科學基金 2002-2005

3. 壓電光譜電化學的理論與應用研究 山東大學跨世紀人才基金 1996～1998

4. Mechanistic studies of drug-DNA, protein-DNA, and ligand-receptor interactions 香港裘氏基金 1998～1999

5. 新型免疫壓電化學傳感器研究 國家教委資助優(yōu)秀年青教師基金 1997～1998

6. 基于自組裝技術的壓電生物傳感器研究 山東省自然科學基金 2000-2003

7. 硅酸鑭鎵晶體微天平生物傳感分析 化學及生物傳感與計量學國家重點實驗室開放基金 2002～2004

二、在研項目

1. 生物芯片中探針固定化方法研究與基片產(chǎn)品開發(fā) 山東省優(yōu)秀中青年科學家科研獎勵基金 2003～2005

2. 半導體納米粒子標記免疫蛋白質(zhì)芯片研究 歸國留學人員基金 2002～2005

科研成果、獲獎情況及代表性論文武藤蘭

1.科研

2.論文

D. Z. Shen, M.H. Huang, L.M. Chow and M.Yang, Sensors and Actuators B:Chemical, 2001, 77, 664—670. Kinetic profile of the adsorption and conformational change of lysozyme on self-assembled monolayers as revealed by quartz crystal resonator

D.Z. Shen, X. Wu, X.Y. Liu, Q.Kang, S.H. Chen, Microchemical J.1999, 63, 322?332. Piezoelectric sensor In situ monitoring adsorption of fibrinogen and surfactant onto a self-assembled monolayer of alkanethiols

D.Z. Shen, Q.J. Xie, Q. Kang , Y.H. Xue, Microchimca Acta, 1998,128, 229? 233. Gravimetric monitoring of adsorption behavior of tetrakis-(methylprdiniumyl)porphyrin onto quartz crystal surface using an electrode-separated piezoelectric sensor.

D.Z. Shen, S.M. Peng , Q. Kang ,Y.H. Xue, Fresenius J. Anal. Chem.,1998, 361, 424 ?428. Adsorption studies of dodecylamine at the quartz interface using an electrode-separated piezoelectric sensor.

D.Z. Shen, Y.H. Xue, Q.Kang, Q.J. Xie, L.X. Chen, Microchemical J.1998, 60, 1?7. In situ monitoring adsorption of lysozyme onto quartz using an electrode-separated piezoelectric sensor

D.Z. Shen, Q. Kang, Y.H. Xue, L.Z. Wang, Sensors & Actuators B ,1998, 50, 253?258. Maximum separation-distance for a separated-electrode piezoelectric sensor. Application to the determination of the cationic surfactant adsorbed on a quartz surface.

D.Z. Shen, Q. Kang, Z.C. Liu , L.Z. Wang , Anal. Chim. Acta,1997,340, 55?60. An oscillation condition for a series piezoelectric sensor and its application in determination of activity of urease in plant seeds.

D.Z.Shen, Q.Kang, C.SMa, L.Z.Wang, X.L.Zhang,J. Electroanal. Chem.,1997,428,105 ?111. Oscillation frequency characteristic of an electrode-separated piezoelectric sensor and application to the determination of the adsorption surfactant on a quartz surface.

D.Z. Shen, Q. Kang , X.L. Zhang , L.Z. Wang, C.S. Ma, Anal. Commun.,1997, 34, 97?99. Determination of surfactant adsorbed on a quartz surface by an electrode-separated piezoelectric sensor.

D.Z. Shen, Q. Kang, X.Y. Wang, Microchimca Acta, 1997, 126, 267?270. Piezoelectric enzyme sensor with improved temperature characteristics for determining urea.

D.Z. Shen, Q. Kang, J.T. Hu, Anal. Lett., 1996, 29, 911?919. Investigation of the detection limit of a series piezoelectric sensor and use in detection of the water content of the edible oils.

D.Z. Shen, M.S. Hang , L.H. Nie , S.Z. Yao, J. Electroanal. Chem., 1994, 371,117?125. A unified equivalent circuit model for piezoelectric sensors.

D.Z. Shen, L.H. Nie, S.Z. Yao, J. Electroanal. Chem.,1994, 367,31?40. Computation of the equivalent circuit parameters of a series piezoelectric crystal and a piezoelectric crystal with separated-electrode in electrolyte solution.

D.Z. Shen, Y.J. Xu, L.H. Nie, S.Z. Yao, Talanta, 1994,41, 1993?1998An impedance analyzer method to simulate the oscillating characteristic of a series piezoelectric sensor in oscillator with zero or non-zero phases.

D.Z. Shen, L.H. Nie, S.Z. Yao, J. Electroanal. Chem.,1993,360,71?87. Computation of the equivalent circuit parameters of a series piezoelectric crystal and a piezoelectric crystal with separated-electrode in non electrolyte solution.

D.Z. Shen, W.H. Zhu , L.H. Nie, S.Z. Yao, Anal. Chim. Acta,1993,276,87?97. Behavior of a series piezoelectric sensor in electrolyte solution: Part I. Theory.

D.Z. Shen, Z.Y. Li , L.H. Nie, S.Z. Yao, Anal. Chim. Acta,1993, 280,209?216. Behavior of series piezoelectric sensor in electrolyte solution: Part II. Application in titrimetry.

D.Z. Shen, S. Lin , Q. Kang, L.H. Nie, S.Z. Yao, Analyst,1993,118,1143?1147. Frequency characteristic of an electrode-separated piezoelectric sensor in contact with a liquid.

D.Z. Shen, Q. Kang , J.T. Hu, Chinese Journal of Chemistry, 1996, 14, 235?243. Influence of oscillator phase on oscillating frequency of an electrode-separated piezoelectric sensor.

D.Z. Shen, W.H. Zhu , L.H. Nie, S.Z. Yao, Chinese Journal of Chemistry ,1994,12,58?65. Frequency characteristic of piezoelectric sensor and application to determination of water in organic solvents.