申大忠 ,男 ,出生於1963年2月 ,香港城市大學生物及化學系 , 博士後,山東師範大學化學院任教。
基本介紹
- 中文名:申大忠
- 民族:土家族
- 出生地:湖南常德市石門縣
- 出生日期:1963年2月
人物簡介,主講課程,已完成及在研項目,原文,
人物簡介
簡 歷
申大忠 湖南常德市石門縣人 土家族。
1979.09~1983.07 成都地質學院二系岩礦分析專業學習 學士
1983.08~1988.08 山東礦業學院地質系任助教
1988.09~1991.03 湖南大學分析化學專業學習 碩士
1991.03~1994.05 湖南大學分析化學專業學習 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
1998.11~200.10
香港城市大學生物及化學系 博士後
2003.10至今 山東師範大學化學院任教
2013年 在山東師範大學評上國家三級教授
目前是山東政協委員(少數民族) 濟南政協委員(常委)(教育界別)農工黨山東東區支部的副主委 濟南市少數民族聯誼會理事
主講課程
分析化學 高等儀器分析 化學計量學 化學感測器 納米分析化學
研究領域和興趣:
電分析化學、化學及生物感測器、生物晶片技術
化學計量學
離子色譜
已完成及在研項目
一、已完成項目
1. 壓電感測器套用於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感測檢測研究 國家自然科學基金 2002-2005
3. 壓電光譜電化學的理論與套用研究 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. 新型免疫壓電化學感測器研究 國家教委資助優秀年青教師基金 1997~1998
6. 基於自組裝技術的壓電生物感測器研究 山東省自然科學基金 2000-2003
7. 矽酸鑭鎵晶體微天平生物感測分析 化學及生物感測與計量學國家重點實驗室開放基金 2002~2004
二、在研項目
1. 生物晶片中探針固定化方法研究與基片產品開發 山東省優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晶片研究 歸國留學人員基金 2002~2005
科研成果、獲獎情況及代表性論文:
1.科研
2.論文
原文
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, 322¾332. 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, 229¾ 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 ¾428. 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, 1¾7. 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, 253¾258. 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, 55¾60. 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 ¾111. 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, 97¾99. 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, 267¾270. Piezoelectric enzyme sensor with improved temperature characteristics for determining urea.
D.Z. Shen, Q. Kang, J.T. Hu, Anal. Lett., 1996, 29, 911¾919. 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, 371,117¾125. A unified equivalent circuit model for piezoelectric sensors.
D.Z. Shen, L.H. Nie, S.Z. Yao, J. Electroanal. Chem.,1994, 367,31¾40. 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, 1993¾1998An 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.,1993,360,71¾87. 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,1993,276,87¾97. 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, 280,209¾216. 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,1993,118,1143¾1147. 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, 235¾243. 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 ,1994,12,58¾65. Frequency characteristic of piezoelectric sensor and application to determination of water in organic solvents.