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林祥钦—— 分析化学专家林祥钦——中国科学技术大学教授

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  林祥钦—— 分析化学专家林祥钦——中国科学技术大学教授 

  专家信息:

林祥钦 男,汉族,1946年生,福建福州人。现为中国科学技术大学教授,博士生导师。先后任中科院长春应用化学研究所学术委员会副主任、中国科学院电分析化学开放研究实验室学术委员,国家电化学和光谱研究分析中心主任、中国科学技术大学化学与材料科学学院副院长兼化学系主任。曾任九三学社第十届中央委员会委员,第七届安徽省委员会副主任委员,第三届吉林省委员会常委,第七届吉林省政协常委,第九届安徽省人大常委,第七届长春市政协委员。被收入IBC国际名人录和ABI500名人录。

学习及工作经历:

1968年毕业于中国科学技术大学近代化学系(北京);

1968年至1978年任内蒙古喜桂图旗伊图里河林业局学校教师;

1978年至1981年在中国科学院研究生院长春应用化学研究所攻读研究生,获理学硕士学位;

1981年至1987年赴美国休斯敦大学化学系化学分析专业留学,获博士学位,并做博士后研究;

1987年至1996年历任中国科学院长春应用化学研究所研究员,国家电化学和光谱研究分析中心常务副主任、主任;

1996年至今历任中国科技大学化学与材料学院副院长,系主任、教授、博士生导师。

学术或专业团体任职:

1. 1994-,中国色谱学会,副会长;

2. 1988-,中国科学院长春应用化学研究所学术委员会,委员;

3. 1987-,《应用化学》、《冶金分析》、《分析测试仪器通讯》刊物编委;

4. 安徽省环境科学学会第二届理事会副理事长;

5. 安徽大学、安徽师范大学兼职教授;

6. 化学会有机分析委员会委员;

7. 电分析化学国家重点实验室学术委员;

8. Biosensors and Bioelectronics、Sensors & Actuators、Analytica Chimica Acta等杂志审稿人。

教学情况:

主讲课程:

资料更新中…………

培养学生情况:

在读研究生9名,已毕业13名硕士、24名博士。

科学研究:

研究方向: 分析化学的多学科交叉研究。

1 快速-超快速伏安法;

2 电化学欧姆电位降补偿新方法;

3 纳米修饰电极及其电化学传感原理;

5 活体电化学探测;

6 界面张力电化学;

7 现场光谱电化学。

承担科研项目情况:

1. 国家自然科学基金:射频段快速循环伏安新技术研究,2002-2004;

2. 高等学校博士学科点专项科研基金资助课题:新型修饰电极生物电化学传感器研究,2005-2007;

3. 国家自然科学基金: 纳米修饰碳电极生物传感器的制备与研究,2006-2008;

4. 非水溶剂金属卟啉电化学和光谱电化学;

5. 现场显微FTIR光谱电化学等多项国家自然科学基金研究;

6. 学习记忆过程的电分析化学方法九五院重大项目课题研究。

科研成果:

资料更新中…………

论文专著:

 

现场光谱电化学部分:

1. Vacuum-Tight Thin-Layer Spectroelecctrochemical Cell with a Doublet Platinum Gauze Working Electrode, X.Q. Lin; K.M. Kadish, Anal. Chem., 1985, 57: 1498-1501.

2. New cell Designs in Thin-Layer Electrochemistry and Spectroelectrochemistry, X.Q. Lin; K.M. Kadish, 42nd Southwest Reaginal ACS Meeting (Houston), Abstract, 1986, 147: p.52, , Houston.

3. A Simple Light Transparent FTIR Spectroelectrochemical Cell with a V-shaped Thin-Layer Chamber.In-situ Characterization of Electrochemically Generated Metalloporphyrin Cation Radicals in Mathylane Chloride and Benzonitrile Solutions, X.Q. Lin; K.M.Kadish, 2nd Beijin Conf.and Exhib.on Instrum.Analysis(BCEIA), Proceedings, 1987, p-1311, , Beijing.

4. The Construction and Utilization of a Simple Light Transparent FTIR Spectroelectrochemical Cell with Thin-layer Chamber, K.M. Kadish; X.H. Mu; X.Q. Lin, Electroanalysis, 1989, 1: 35-41.

5. 电极体插入式长光程薄层可见紫外光谱电化学池设计.二茂铁在二氯乙烷和苯甲烷溶液中的氧化还原行为, 林祥钦; 刘殿骏; 汪尔康, 物理化学学报, 1989, 5: 719-722.

6. A Long-Path-Length UV-Visible Spectroelectrochemical Cell that Uses a Versatile Plug-in Teflon Thin-Layer Electrode, X.Q. Lin; D.J. Liu; E.K. Wang, 3rd Beijin Conf.and Exhib. on Instrum. Anal.(BCEIA), Proceedings, 1989, F143, , Beijing.

7. 光波谱电化学方法的一些新进展, 林祥钦, 第二届国际电分析化学研讨会, 资料汇编, 1989, , , 长春.

8. 直立式金网电极薄层红外光谱电化学池的新设计, 林祥钦; 刘宇; 汪尔康, 化学学报, 1990, 48: 1080-1084.

9. 一种简易的多用途长光程薄层光谱电化学池, 林祥钦; 杨锋利; 汪尔康, 第四届全国电分析化学学术会议, 论文集, 1990, I12: p.431, , 上海.

10. 非水介质中几种金属酞菁化合物的电化学与光谱电化学研究, 林祥钦; 刘 宇; 汪尔康, 第四届全国电分析化学学术会议, 论文集, 1990, I11: p.430, , 上海.

11. 一种简易多用途可见紫外薄层光谱电化学池, 林祥钦; 杨锋利; 汪尔康, 分析化学, 1991, 19: 1100-1103.

12. A Simple Long Path-Length Thin-Layer Spectroelectrochemical Cell Using a Glassy Carbon Plate Working Electrode, X.Q. Lin; F.L. Yang; E.K. Wang, the First Changchun International Seminar on Electroanalytical Chemistry (ISEC), Abstracts of Papers, 1991, p.254, , Changchun..

13. 掺锡三氧化铟导电玻璃双工作电极薄层光透电化学池的设计, 林祥钦; 魏培海; 买光昕; 韩文俊; 余亦舜; 李光宾, 分析化学, 1992, 20: 735

14. In-situ Distance Resolved Optically Transparent Thin-layer Microscopic FTIR Spectro- electrochemistry. Eestimation of the Concentration-Disdance Profile, X.Q. Lin; Z.L. Li, Chen.Chem. Lett., 1993, 4(4): 355-358.

15. 新型透射式红外光谱电化学池, 杨锋利; 林祥钦; 汪尔康, 分析化学, 1993, 21: 857-860.

16. 一种简易型ESR 波谱电化学池的设计和卟啉π 阳离子自由基的检测, 刘殿骏; 郭庆斌; 詹瑞云; 徐 杰; 林祥钦, 分析化学, 1993, 21: 979-982.

17. 现场显微红外光谱电化学技术及超微铂盘电极上的反射吸收光谱测定, 林祥钦; 章宏强, 分析化学, 1993, 21: 1355-1358.

18. 现场显微红外光谱电化学法- 超微铂盘电极反射式电化学池的设计及对Fe(CN)64-/Fe(CN)63-的现场表征, 林祥钦; 章宏强, 第五届全国电分析化学学术会议(5th NCEAC),论文集, 1993, F7: p.464, , 武汉.

19. 全玻璃型顺磁波谱电化学池的设计与表征, 刘殿骏; 郭庆斌; 詹瑞云; 徐杰; 林祥钦, 第五届全国电分析化学学术会议(5th NCEAC), 论文集, 1993, F10: p.470, , 武汉.

20. Utilization of IR-microscope for Studies of FTIR Spectroelectrochemistry: the Microscopic FTIRS, X.Q. Lin, the Second Asian Conference on Analytical Chemistry, Abstract of papers,1993, E38: p.128, , Changchun.

21. Principle and Technical Aspects of the In-situ Microscopic FTIR Spectroelectro-chemistry, X.Q. Lin, 4th ISEC, Proceedings (Invited report ), 1993, p.53, , Changchun.

22. 现场显微红外光谱电化学研究普鲁士蓝膜修饰电极氧化还原机理, 李志丽; 林祥钦, 第三届尼高力公司用户会议, 文集, 1994, , , 北京.

23. 聚邻苯二胺膜电极的红外光谱电化学检测, 章宏强; 林祥钦; 汪尔康, 第三届Nicolet 用户会议, 文集, 1994, , , 北京.

24. 显微红外光谱电化学研究及其进展, 林祥钦, 分析化学新进展 (中国化学会第五届年会暨第四届无机微量技术及痕量分析学术会议), 文集, 1994, A27, , 南京.

25. Electrochemistry and In-situ IR Microspectroectrochemistry in A Versatile Thin-Layer Reflection FTIR Microspectroelectrochemicall Cell, Z.L. Li; X.Q. Lin, J.Electroanal.Chem., 1995, 386: 83-87.

26. In-situ Microscopic FTIR Spectroelectrochemical Cell Design for Solid-State Electro-chemical Studies. Redox Reaction of Fe(CN)63-/4- in PEG400/LiClO4, X.Q. Lin; X.Y. Wang, 7th BCEIA, Proceedings,1995, F157, , Beijing.

27. Studies on the In-situ Microscopic FTIR Spectroelectrochemistry (MFTIRS), X.Q.Lin, 5th ISEC, Extended Abstract, 1995, I-39: p.73a, , Changchun.

28. Spectroelectrochemical Study of Poly(o-Aminophenal) Film Coated Electrode by In-situ External Reflection FTIR Spectroscopy, H.Q. Zhang; X.Q. Lin; E.K. Wang, 46th Annual Meeting of ISE, Abstract,1995, 3-21, , Xiamen.

29. Electrochemical behavior of Ferrocene in Comlike Polymer Electrolyte of Main Chain Glass Transition Near Room Temperature, L.P. Guo; L. Qi; Y.Q. Lin; X.Q. Lin, 5th ISEC, Extended Abstract, 1995, 56; p.144, , Changchun.

30. A New Reflectance Microscopic FTIR Spectroelectrochemical Cell, J.G. Jiang; X.Q. Lin, 5th ISEC, Extended Abstract,1995, 57; p.145, , Changchun.

31. Microelectrode Esembles: A Novel Application in In-situ FTIR Spectroelectrochemistry,H.Q. Zhang, X.Q. Lin, E.K. Wang, 5th ISEC, Extended Abstract, 1995, 142; p-54, , Changchun.

32. 外反射式微薄层显微红外光谱电化学池的设计(In-Situ Microdisk Thin-Layer Microscopic Fourier Transform Infrared Spectroelectrochemical Cell for Solid-state Electrolyte System), 林祥钦; 王新豫, 分析化学, 1996, 24: 489-493.

33. In-situ External Reflection FTIR Spectroelectrochemical Investigation of poly(o- phenylenediamine) Film Coated on a Platinum Electrode, X.Q. Lin; H.Q. Zhang, Electrochim.Acta, 1996, 41: 2019-2024.

34. 微红外光谱电化学方法在化学修饰电极研究中的应用, 林祥钦, 全国电分析化学会议,文集, 1996, , , 青岛.

35. In-situ FTIR Spectroelectrochemical Investigation of Cobalt(II)-Cyanoferrate Polymeric Film Coated on a Glassy Carbon Electrode, H.Q. Zhang; X.Q. Lin, Talanta, 1997, 44(11): 2069-2073.

36. In-situ FTIR Spectroelectrochemistry of a Micro Array Electrode, H.Q.Zhang; X.Q. Lin, J.Electroanal.Chem., 1997, 434(1-2): 55-59.

37. 利用毛细管效应的新型反射式显微红外光谱电化学池的设计和表征, 蒋俊光; 林祥钦, 分析化学, 1997, 25(6): 734-737.

38. An Electrochemical Study of Prussian Blue Microcrystallines Mixed in PEO400 Polymer Electrolyte by Solid-state Voltammetry, L.P. Guo; X.Q. Lin, Chem.Res.in Chin.Univ., 1997,13(4): 304-311.

39. In-situ FTIR spectroelectrochemical study of the electrocatalytic oxidation of ascorbic acid by cobalt hexacyanoferrate in polymer media, L.P. Guo; X.Q. Lin, International 7th BCEIA, Proceedings,1997, F171, , Shanghai.

40. In-situ microscopic FTIR spectroelectrochemical study of the reduction of K3Fe(CN)6 in polyelectrolyte, L.P. Guo; X.Q. Lin, International 7th BCEIA, Proceedings, 1997, F173, , Shanghai.

41. In-situ MFTIR spectroelectrochemical investigation of the redox reaction of p-amino-phenol in MeCN solution, J.G. Jiang; H.Q. Zhang; X.Q. Lin, International 7th BCEIA, Proceedings, 1997, F175, , Shanghai.

42. In-situ external reflection FTIR spectroelectrochemical study of the cobalt cyanometallates polymeric film coated on a platinum electrode, A.L. Bo; X.Q. Lin, International 7th BCEIA, Proceedings, 1997, F181, , Shanghai.

43. Study of metal hexacyanoferrate microcrystallines mixed in polyelectrolyte by voltammetry and microscopic FTIR spectroelectrochemistry, L.P. Guo; X.Q. Lin, Sixth ISEC, Extended Abstracts, 1997, P-26: p.129, , Changchun.

44. In-situ FTIR spectroelectrochemical study of nickel cyanometallates film on glassy carbon electrode, A.L. Bo; X.Q. Lin, Sixth ISEC, Extended Abstracts, 1997, P-31, p.136, , Changchun.

45. 非水溶剂中铁酞箐的in-situ可见紫外光谱电化学(in-situ UV-Visible spectroelectrochemical studies of ironphthalocyanine in non aqueous solvents), 刘 宇; 林祥钦,应用化学, 1998, 15: 44-47.

46. 固体六氰合铁酸钴微粒在聚电解质中的现场显微红外光谱电化学(in-situ Microscopic FTIR spectroelectrochemical study of cobalt hexacyanoferrate microcrystallites in polyelectrolyte), 郭黎平; 林祥钦, 应用化学(Chin. J. of Appl. Chem.),1998, 15(4): 13-16.

47. 聚合物电解质(PEG/LiClO4中 L-抗坏血酸氧化的现场显微红外光谱电化学研究(In-situ Microscopic FTIR Spectroelectrochemical Study of Oxidation of L-Ascorbic Acid in Polymer Electrolyte (PEG/LiClO4)), 郭黎平; 林祥钦, 高校化学学报, 1998, 19(5): 802-804.

48. Characterization of the structural and functional changes of hemoglobin in dimethyl sulfoxide by spectroscopic techniques,C.W. Liu; A.L. Bo; G.J. Cheng; X.Q. Lin; S.J. Dong, Biochimica et Biophysica Acta, 1998, 1385: 53-60.

49. Electrochemical and spectroelectrochemical studies on eletrooxidation reactions of (TPP)CoII/NO3- system, X.Q. Lin; Z.X. Wang; D.J. Liu,Chem. Res. in Chin. Univ.,1998, 14(3): 344-347.

50. In-Situ Microscopic FTIR Spectroelectrochemical Study of the Reduction of K3[Fe(CN) 6] in Polymer Electrolyte, L.P.Guo; X.Q.Lin, Chemi.Res.in Chin.Univ., 1998, 14(3): 264-269.

51. In-situ FTIR Spectroelectrochemical Study of Chromium Hexacyanoferrate on Glassy Carbon Electrodes, A.l.Bo; X.Q.Lin, Chin.Chem.Lett.,1998,9(9): 851-854.

52. In-situ microscopic FTIR spectroelectrochemistry of ascorbic acid in poly(ethylene glycol)/LiClO4 electrolyte paste and in the presence of dispersed cobalt hexacyanoferrate microcrystalline powder, L.P. Guo; X.Q. Lin, Chem.Res.in Chin.Univ.,1999,15(1): 10-16.

53. 玻碳电极上六氰亚铁酸钯的现场FTIR光谱电化学研究(In-situ FTIR spectroelectrochemical study of palladium hexacyanoferrate thin film deposited on glassy carbon electrode), 薄爱丽;林祥钦,电化学, 1999,5(2): 206-211.

54. 酞箐锰络合物的电化学与光谱电化学研究(Electrochemistry and spectroelectrochemistry study of manganese phthalocyanine in nonaqueous media),刘 宇; 林祥钦, 分析化学(Chem. J. of Chin. Univ.), 1999, 27: (9): 1026-1028.

55. 聚电解质中活性物质氧化还原反应机理的现场显微红外光谱电化学研究(In-situ microscopic Fourier Transform Infrared Spectroelectrochemistry of redox mechanism for electroactive species in polyelectrolyte), 郭黎平; 林祥钦,分析化学,. 1999, 27(2): 135-139.

56. 六氰亚铁酸镍修饰玻碳电极的现场红外光谱电化学研究(In-situ FTIR spectroelectrochemistry as a probe of the glassy carbon electrode chemically modified by nickel(II)-cyanometallates),薄爱丽; 林祥钦,分析化学,1999,27(3): 254-260.

57. 聚电解质中阳离子浓度对7;7;8;8-四氰基苯醌二甲烷现场显微红外光谱的影响(Influence of cation concentration on 7,7,8,8-tetracyanoquinodimethane in polyelectrolyte by using in-situ microscopic FTIR spectroelectrochemistry),郭黎平;林祥钦,分析化学, 1999, 27(3): 300-303.

58. 聚电解质中阴离子对铁氰化甲还原过程影响的原位显微红外光谱电化学,郭黎平;林祥钦,分子科学学报, 1999, 15(02): 103-107.

59. 普鲁士蓝-六氰亚铁酸镍膜修饰铂电极的现场FTIR光谱电化学(Electrochemical and in-situ FTIR spectroelectrochemical study of Plussian Blue (PB) and PB-NiHCF mixture film modified platinum electrode),林祥钦; 薄爱丽,安徽师范大学学报(自然科学版),1999,22(1):1-4.

60. 循环伏安和现场红外光谱电化学研究镉(II)在普鲁士蓝/铂修饰电极上的反应(Cyclic voltammetric and in-situ FTIR spectroelectrochemical studies on the reaction of Cd2+ on the Plussian Blue/ platinum modified electrode), 薄爱丽; 林祥钦,分析化学,1999,27(4):392-397.

61. In-situ external reflection FTIR spectroelectrochemical and XPS investigation of cobalt-cyanometallates as inorganic polymeric materials on a platinum electrode, A.L.Bo; X.Q.Lin, Talanta, 1999,49: 717-723.

62. 一种多功能薄层光谱电化学池, 吴霖生; 崔 华; 林祥钦, 安师大学报(自然科学版), 2000,23(2):131-133.

63. In-situ microscopic FT-IR spectroelectrochemical investigation of polythiophene film modified electrode,Jiang J G; Zhang H Q; Lin X Q, CHEM RES CHINESE U.,2001, 17 (1): 26-30.

64. Multi-mode in-situ spectroelectrochemical studies of redox pathways of adrenaline, H.Cui; L.S.Wu; J.Chen; X.Q.Lin, J.Electroanal.Chem.,2001, 504: 195-200. (Cui H; Wu LS; Chen J; Lin XQ, Multi-mode in situ spectroelectrochemical studies of redox pathways of adrenaline, JOURNAL OF ELECTROANALYTICAL CHEMISTRY2001,504,2,,195-200.)

65. 桥联双二茂铁铂配合物的电子转移机理研究,汪夏燕; 金葆康; 田玉鹏; 林祥钦,化学学报,2001,59(10):1577-1582. (Wang XY; Jin BK; Tian YP; Lin XQ, Study on the mechanism of electron transfer of a bridged biferrocene platinum (II) complex, ACTA CHIMICA SINICA 2001,59,10,1577-1582.)

66. 对氨基苯酚氧化还原的电化学和红外光谱电化学研究, 章宏强; 蒋俊光; 林祥钦, 高校化学学报,2001,22(?): 26-31

67. Electrochemical and in-situ FTIR Studies of Biferrocene Trinuclear Platinum (Ⅱ) Complex, XY Wang, ZX Deng, BK Jin, YP, XQ Lin,Electrochimica Acta,2002, 47(10): 1537-1543.

68. Electrochemical and in-situ SNIFTIR spectroscopic study on palladium(II) and zinc(II) Schiff base complexes: Structure control the electronic communication between two identical redox sites, X.Y.Wang; Z.X.Deng; B.K.Jin*; Y.P.Tian; X.Q.Lin*, Bulletin of the Chemical Society of Japan,2002,75(6):1269-1273.

69. 中性溶液中抗坏血酸在六氰合亚铁酸钴铜膜修饰铂电极上现场红外光谱电化学研究, 汪夏燕; 崔兴品; 崔运梅; 金葆康; 林祥钦, 高校化学学报, 2002,23(8)Aug:1498-1500. (Investigation of electrochemical oxidation of L-ascorbic acid at CoCuHCF/Pt electrode in neutral solutions by in situ FTIRRAS, X Wang; X Cui; Y Cui, B Kang; X Lin, Chemical Journal of Chinese Universities, 2002,23(8)Aug:1498-1500. CHI)

70. In-situ ftir spectroelectrochemical study of dopamine at a glassy carbon electrode in neutral solutions, x. Y. Wang; b.k. Jin, X.Q. Lin, anal. Sci.,2002, 18(8):931-933.

71. Study on the spectroelectrochemical properties of s-benzyl-n- (ferrocenyl-1-methyl-metylidene)- dithio -carbazate nickel(ii) complex x.y.wang; z.x.deng; b.k.jin; y.p.tian; X.Q.Lin, spectrochimica acta part a: mol. & biomol. 2002, 58: 3113-3120.

72. 乙酰二茂铁缩肼基硫代甲酸苄酯镍/钴配合物现场红外光谱电化学研究, 汪夏燕; 金葆康; 田玉鹏; 林祥钦, 光谱学与光谱分析, 2003,23(1):42-45. (Study on S-benzyl-N- (ferrocenyl- 1-methyl-metylidene)- dithiocarbazate nickel (Ⅱ)/cobalt (Ⅱ) complexes by in-situ FTIR spectroelectrochemistry, X.Y. Wang; B.K. Jin*; Y.P. Tian; X.Q. Lin*, Spectroscopy and Spectroanalysis),2003, 23(1): 42-45. CHI)

73. 六氰合铁酸铜钴薄膜修饰电极的in-situ FTIR研究, 崔兴品; 汪夏燕; 林祥钦, 光谱学与光谱分析,2003,23(3)Jun: 603-604.(In-situ FTIR study of hybrid copper-cobalt hexacyanoferrate film modified electrode, X Cui; X Wang; X Lin, Spectroscopy and Spectral Analysis, 2003,23(3)Jun: 603-604. CHI)

74. In-situ FTIR Spetroelectrochemical and Electrochemical Studies of Ferrocene and Derivatives at a Platinum Electrode , P Du, B K Jin, J X Yan, X Q Lin, Chin. Chem. Lett. 2004, 15(2): 204-207.

75. 紫外可见吸收光谱发现场监测聚苯胺的电化学降解, 姜春明, 张汉昌, 林祥钦, 白如科, 光谱学与光谱分析, 2005, 25(5): 751-753.

 

化学数字模拟与计算机分析化学:

76. 电化学数字模拟的一种新不等格分格法, 林祥钦; 薄爱丽, 应用化学, 1995, 12: 52-57.

77. 电化学数字模拟的一种新不等格的分格法, 林祥钦; 薄爱丽, 第八届全国电化学会议, 论文摘要集, 1995, A1: p.1, , 厦门.

78. 电化学数值模拟法改进及未补偿溶液电阻存在下的快扫循环伏安研究(An improved electrochemical numerical simulation and characterization of influences of uncompansated solution resistance on cyclic voltammograms), 林祥钦;邓兆祥, 安徽师大学报(自然科学版),1998, 21(4): 333-338.

79. Digital Simulation of Fast Cyclic Voltammogram by the Integration of Double Layer Charging Curret, Z.X.Deng; X.Q.Lin, J.Electroanal.Chem., 1999, 464: 215-221.

80. 快扫循环伏安曲线的单纯形优化数值模拟拟合方法(Simplex optimization-numerical simulation method for fast cyclic voltammetric curve fitting),邓兆祥;赵 炜; 林祥钦,分析化学, 1999, 27(4): 383-387.

81. 计时电流和因子分析-法拉第电流与充电电流的分离,林祥钦; 陈宗海; 邵学广; 邓兆祥,分析化学, 1999, 27(12): 1381-1385.( Separation of faradic and charging current with factor analysis for chronoamperometry, CHINESE JOURNAL OF ANALYTICAL CHEMISTRY, Lin XQ; Chen ZH; Shao XG; Deng ZX, 1999, Vol 27, Iss 12, pp 1381-1385.)

82. 指数扩展的网络方法模拟超快循环伏安曲线(Simulation of ultra-fast cyclic voltammetric curve by the exponential expand network method), 邓兆祥; 林祥钦, 分析化学, 1999,27(12):1376-1380. (Simulation of ultra-fast cyclic valtammetric curve by the exponentially expand network method,CHINESE JOURNAL OF ANALYTICAL CHEMISTRY, Deng ZX; Lin XQ,1999, Vol 27, Iss 12, pp 1376-1380.)

83. 在线小波变换用于伏安分析仪的研制(An application of on-line wavelet transform to the development of voltammetric analyzer),邵学广;庞春燕;张汉昌;吴守国;林祥钦,分析化学, 1999, 27(11): 1248-1253.

84. Development of wavelet transform voltammetric analyzer, X.G.Shao; C.Y.Pang; S.G.Wu; X.Q.Lin, Talanta, 2000, 50 (6): 1175-1182.

85. Factor analysis and its progress in electroanalytical chemistry, Chen ZH; Lin XQ; Shao XG, CHINESE JOURNAL OF ANALYTICAL CHEMISTRY, 2000, Vol 28, Iss 11, pp 1428-1433.

86. 网络法数字模拟电活性物种吸附体系的循环伏安曲线, 邓兆祥; 林祥钦, 分析化学, 2000, 28(8):930-935.

87. 基于小波变换平滑主成分分析, 陈宗海; 林祥钦; 邵学广, 分析化学, 2000,28(8):960-963.

88. 一种新型的信号拟合方法-免疫算法, 邵学广; 陈宗海; 林祥钦, 分析化学, 2000, 28(2):152-155.( A novel algorithm for fitting analytical signals - an immune algorithm, Shao XG; Chen ZH; Lin XQ, CHINESE JOURNAL OF ANALYTICAL CHEMISTRY, 2000, Vol 28, Iss 2, pp 152-155.)

89. An immune algorithm for multicomponent overlapping chromatograms, X G.Shao; Z H Chen; X Q Lin, Freserius J.Anal.Chem., 2000,366(1):10-16.

90. Resolution of multicomponent overlapping chromatograms using an immune algorithm and genetic algorithm,X.G.Shao; Z.H.Chen; X.Q.Lin, Chemometrics and Intelligent Laboratory Systems, 2000,50:91-99.(sci)

91. An application of on-line wavelet transform to the development of voltammetric analyzer, Shao XG; Pang CY; Zhang HC; Wu SG; Lin XQ, CHINESE JOURNAL OF ANALYTICAL CHEMISTRY 1999, Vol 27, Iss 11, pp 1248-1253.

92. 因子分析及其在电分析化学中的应用进展, 陈宗海; 林祥钦; 邵学广, 分析化学, 2000, 28(11):1428-1433.

93. 傅立叶变换-主成分分析方法用于二维色谱数据的压缩和重构, 陈宗海; 邵学广; 林祥钦, 分析实验室, 2000,19(6):46-49.

94. Flip shift subtraction method: a new tool for separating the overlapping voltammetric peaks on the basis of finding the peak position through the continuous wavelet transform, S.G.Wu; L.Nie; J.W.Wang; X.Q.Lin; L.Z.Zheng; L.Rui, J.Electroanal.Chem., 2001, 508:11-27.

95. Continuous wavelet transform and its application to resolving and quantifying the overlapped voltammetric peaks, L Nie; SG Wu; JW Wang; LZ Zheng; XQ Lin; L Rui, Anal. Chim. Acta, 2001, 450(1-2), 185-192.

96. 傅立叶变换用于快扫循环伏安法的电流分离, 陈宗海; 林祥钦; 邵学广, 分析化学, 2001, 29(6): 625-628.

97. 一种判断电化学/化学反应体系热力学自洽性的新方法, 邓兆祥; 林祥钦*; 童中华, 化学学报,2002,60(8):1415-1418. (A new algorithm for judgment of the thermodynamic self-consistency of an electrochemical/chemical reaction system, Z Deng; X Lin; Z Tong, Acta Chimica Sinica, 2002,60(8):1415-1418. CHI)

98. 窗口因子分析算法的改进及带噪声HPLC-DAD数据的解析,邵学广; 邵利民; 李梅青; 林祥钦,中国科学,2002,32(2):97-104.

99. 电分析化学中的化学计量学方法及其应用进展, 陈宗海; 林祥钦; 邵学广, 分析科学学报, 2002,18(1):75-79. (Application and advance of chemometrics in electroanalytical chemistry, Z Chen; X Lin; X Shao, J. Anal. Sci., 2002, 18(1): 75-79. CHI)

100. An improvement of window factor analysis for resolution of noisy HPLC-DAD data, X.G.Shao;L.M.Shao;M.Q.Li;X.Q.Lin, Science in China, 2002,45(3):289-298.

101. Approximate Derivative Calculated by Using Continuous Wavelet Transform, L Nie; SG Wu; XQ Lin; LZ Zheng; L Rui, J. Chem. Inf. Comput. Sci., 2002, 42, 274-283.

102. 连续和离散小波变换用于重叠伏安信号峰位置提取的对比研究, 聂磊; 吴守国; 林祥钦; 郑龙珍; 芮蕾,《21世纪电分析化学》,甘肃文化出版社, p.325-326, 兰州.

103. Exponentially expanded grid network approach (EEGNA): an efficient way for the simulation of stiff electrochemical problems, Z X Deng; X Q Lin; Z H Tong, Chinese J.Chemistry, 2003,21(9):1137-1145.

104. 一种基于免疫识别的主因子数判断方法,邵利民;邵学广;林祥钦,高等学校化学学报,2003,24(4)APR:595-598.(A novel method for determining the principal factor number on immune recorgnition, L Shao; X Shao; X Lin, Chem. J. Chin. Univ., 2003,24(4)APR: 595-598. CHI)

105. Universal Electrochemical/Chemical Simulator Based on an Exponentially Expanding Grid Network Approach, Z. X. Deng , X. Q. Lin, Z. H. Tong, Chin.J.Chem ., 2004,22(7):719-726 Jun.

106. Global evaluation of linear sweep voltammetric responses with electroactive species confined at the electrode surface, Z. X. Deng, Z. H. Tong, X. Q. Lin , J. Electroanal. Chem., 2004, 568(1-2): 235-245.

107. Exponentially Expanded Grid Network Approach (EEGNA):An Efficient Way for the Simulation of Electrochemical Problems at Spherical, Cylindrical and Rotating-disk Electrodes,Z X Deng; X Q Lin; Z H Tong, (指数扩展格网络方法:模拟球、柱和旋转圆盘电极体系电化学问题的有效方法, 邓兆祥; 林祥钦; 童中华), Chin. J. Chem., 2005, 23(2):166-172.

化学修饰电极与电化学传感器: 

108. DNA immobilization on nano-gold modified glassy carbon electrode, X.Q.Lin; Q.Miao; B.K.Jin, Chin.Chem.Lett., 1999,10(2): 157-160.

109. 铂黑修饰酶电极测定胆碱, 陈 峻; 林祥钦; 陈宗海; 吴守国; 王树青, 分析化学, 2000,28(9):1066-1069.

110. Amperometric biosensor for hydrogen peroxide besed on immobilization of horsradish peroxidase on methylene blue modified graphite electrode, X.Q.Lin; J.Chen; Z.H.Chen, Electroanalysis, 2000,12(4):306-310.

111. ss-DNA在纳米金上固载和杂化的电化学传感研究, 缪 谦; 金葆康; 林祥钦, 高校化学学报, 2000,21(1):27-30.

112. Amperometric Micro-Biosensor Array For Choline And Acetylcholine Based On A Glassy Carbon Electrode Modified By Platinum-Black Particles And A Co-Crosslinked Enzyme System,J.Chen; X.Q.Lin; Z.H.Chen; S.G.Wu; S.Q.Wang,Anal.Lett.,2001,34(4):491-501.

113. Covalent modification of Glassy Carbon Electrode with Glutamic Acid for Simultaneous Determination of Uric Acid and Ascorbic Acid, L.Zhang; X.Q.Lin, Analyst, 2001,126(3): 367-370. (Zhang L; Lin XQ, Covalent modification of glassy carbon electrode with glutamic acid for simultaneous determination of uric acid and ascorbic acid, ANALYST 2001,126,3,367-370.)

114. Covalent Modification of Glassy Carbon Electrodes with Glycine for Voltammetric Separation of Dopamine and Ascorbic Acid, L.Zhang; X.Q.Lin, Fresenius J.Anal.Chem., 2001,370: 956-962.

115. Simultaneous Determination of Dopamine and Ascorbic acid at Glutamic acid Modified Graphite Electrode, X.Q.Lin; L.Zhang, Anal. Lett., 2001, 34(10): 1585-1601.( Lin XQ; Zhang L, Simultaneous determination of dopamine and ascorbic acid at glutamic acid modified graphite electrode, ANALYTICAL LETTERS 2001,34,10,1585-1601.)

116. 乙酰胆碱/胆碱电化学生物传感器研究进展, 陈 峻; 林祥钦, 分析科学学报,2001,17(6): 511-516.

117. Separation of anodic peaks of ascorbic acid and dopamine at α-alanine covalently modified glassy carbon electrode, L.Zhang; Y.G.Sun; X.Q.Lin, Analyst, 2001, 126(10): 1760-1763.( Zhang L; Sun YG; Lin XQ, Separation of anodic peaks of ascorbic acid and dopamine at an ct-alanine covalently modified glassy carbon electrode, ANALYST 2001,126,10,1760-1763.)

118. Selective Determination of Dopamine in the presence of Ascorbic Acid at Over-oxidized Poly(N-acetylaniline) Electrode, L.Z.Zheng; S.G.Wu; X.Q.Lin; L.Nie; L.Rui, Analyst, 2001, 126:736-738.

119. Electrochemical studies on the oxidation of thymine at β-cyclodextrin modified electrode, S.G.Wu; L.Z.Zheng; L.Rui; X.Q.Lin, Electroanalysis, 2001,13(11): 976-970. (Wu SG; Zheng LZ; Rui L; Lin XQ, Electrochemical studies on the oxidation of thymine at beta-cyclodextrin modified electrode, ELECTROANALYSIS 2001,13,11,967-970.)

120. Selective Determination of Uric Acid by using a β-cyclodextrin modified electrode, LZ Zheng; SG Wu; XQ Lin; L Nie; L Rui, Electroanalysis, 2001, 13(16), 1351-1354. (Zheng LZ; Wu SG; Lin XQ; Nie L; Rui L,Selective determination of uric acid by using a beta-cyclodextrin modified electrode, ELECTROANALYSIS,2001,13,16,1351-1354.)

121. 六氰合铁酸铜钴在蜡浸石墨电极表面的电化学沉积,崔兴品; 汪夏燕; 张雷; 林祥钦, 分析化学,2002,30(1):93-96. (Electrodeposition of copper-cobalt hexacyanoferrate on waxed graphite electrode, X Cui; X Wang; L Zhang; X Lin, 2002,30(1): 93-96. CHI)

122. 六氰合铁酸铜钴薄膜修饰铂电极的电化学、XRD及XPS研究, 崔兴品; 汪夏燕; 张雷; 林祥钦, 化学学报,2002, 60(4): 704-710. (Electrochemistry, XRD and XPS of a platinum electrode modified with hybrid hexacyanoferrate films of copper and cobalt, X Cui; X Wang; L Zhang; X Lin, 2002, 60(4): 704-710.)

123. Hybrid Copper-Cobalt Hexacyanoferrate Films Modified Glassy Carbon Electrode As An Electrochemical Sensor For Hydrogen Peroxide, X P Cui; X Q Lin, ANAL LETT, 2002, 35(4): 663-675.

124. Electrocatalytic Oxidation Of Hydroxylamine On Glassy Carbon Electrodes Modified by Hybrid Coppr-Cobalt Hexacyanoferrate Films, X.P. Cui; H. Li; X.Q. Lin, Anal. Sci., 2002, 18(5): 543-547.

125. 乙二胺四乙酸二钠/碳糊修饰电极测定水中银离子, 张胜帮; 张学俊; 林祥钦, 分析化学,2002,30(6):745-747. (An ethylenediaminetetraacetic acid modified carbon paste electrode for the determination of silver ion, Zhang; X Zhang; X Lin, Chinese Journal Of Analytical Chemistry, 2002,30(6):745-747. CHI)

126. Electrochemical Preparation, Characterization and Application of Electrodes Modified With Hybrid Hexacyanoferrates of Copper and Cobalt, X.P. Cui; L Hong; X.Q. Lin, J. Electroanal. Chem., 2002,526(1-2):115-124.

127. Preparation and Characterization of a Novel β-Cyclodextrin Modified Poly(N-acetylaniline) Film, LZ Zheng; SG Wu; XQ Lin; L Nie; L Rui; XR Yang, Macromolecules, 2002, 35(16), 6174-6177.

128. 聚L-谷氨酸/石墨充蜡修饰电极测定多巴胺, 林祥钦; 晋冠平; 崔华, 分析化学,2002,30(3):271-275.(Covalent binding of L-glutamic acid on a waxed graphite electrode for determination of dopamine in the presence of ascorbic acid and adrenaline, X Lin; G Jin; H Cui, Chin .J. Anal. Chem., 2002,30(3):271-275. CHI)

129. 石墨电极固载DNA的一种新修饰方法, 郑赛晶; 林祥钦*; 尹屹梅, 化学学报, 2002,60(10):1828-1833. (A new method for surface modification of paraffin impregnated graphite electrode for DNA immobilization and hybridization, S Zheng; X Lin; Y Yin, Acta Chim. Sinica, 2002,60(10):1828-1833. CHI)

130. DNA sensor for base mismatch detection based on a gold colloid modified glassy carbon electrode, Lin XQ; Zheng SJ; Miao Q; Jin BK, Analytical Letters, 2002, 35 (8): 1373-1385. *

131. 受体生物传感器的研究进展, 尹屹梅; 林祥钦, 分析化学, 2002, 30(10):1267-1271. (Advances of Receptor biosensors, Y Yin; X Lin, Chin.J. Anal. Chem. 2002, 30(10): 1267-1271. CHI)

132. 微孔穴修饰碳电极固载DNA,林祥钦; 郑赛晶; 王树青,in “21世纪电分析化学”/汪尔康;卢小泉;康敬万编, 甘肃文化出版社,兰州.

133. 聚苯胺的改性研究, 郑龙珍; 吴守国; 林祥钦; 聂磊; 芮蕾,《21世纪电分析化学》,甘肃文化出版社,p.337-338, 2002.8.10-14,兰州.

134. 分子层g-氨基丁酸共价修饰玻碳电极同时测定多巴胺、尿酸和抗坏血酸, 张 雷; 林祥钦, 高校化学学报,2003,24(4): 591-594.

135. 六氰合铁酸铜钴薄膜修饰电极的in-situ FTIR研究, 崔兴品; 汪夏燕; 林祥钦, 光谱学与光谱分析,2003,23(3)Jun: 603-604.(In-situ FTIR study of hybrid copper-cobalt hexacyanoferrate film modified electrode, X Cui; X Wang; X Lin, Spectroscopy and Spectral Analysis, 2003,23(3)Jun: 603-604. CHI)

136. Electrochemical Characterization of Poly(N-acetylaniline)/Nafion Composite Film in Neutral and Basic Aqueous Solutions, LZ Zheng; SG Wu; XQ Lin; CH Shi; L Nie; L Rui, Electroanalysis 2003, 15(3)March: 191-195.

137. DNA纳米网络修饰碳纤维盘电极及其分子传感应用,林祥钦; 蒋晓华; 鲁理平, 分析实验室22 (增刊)(2003-11): 22. (DNA Nano-Netting Modification On Carbon Fiber Disk Electrode And Application For Molecular Sensing,X Lin; X Jiang; L Lu, the 11Th Symposium on Organic Analysis and Bioanalytical Chemistry, 2003.11, Hanzhou, China)

138. Voltammetric Behaviour of Dopamine At ct-DNA Modified Carbon Fiber Microelectrode, X Q Lin; L P Lu; X H Jiang, Microchemia Acta, 2003, 143(4):229-235.

139. Amperometric Biosensor For Hydrogen peroxide Based on Electrodeposited sub-micrometer Gold Modified Glassy Carbon Electrode, Shu-Qin Wang, Jun Chen, Xiang-Qin Lin, Chin J. Chem., 2004, 22(4): 360-364.

140. Cooperative effect of Pt nanoparticles and Fe(III) in the electrocatalytic oxidation of nitrite, S. Q. Wang, L. P. Lu Y M Yin, X. Q. Lin , Electrochemistry Communications , 2004, 6(3)March: 259-262.

141. Novel choline and acetylcholine modified glassy carbon electrodes for simultaneous determination of dopamine, serotonin and ascorbic acid, G. P. Jin, X. Q. Lin, J. M. Gong , J.Electroanal.Chem. , 2004, 569(1): 135-142.

142. The Electrochemical behavior and amperometric determination of tyrosine and tryptophan at a glassy carbon electrode modified with butyrylcholine, G. P. Jin, X. Q. Lin , Electrochemistry Communications , 2004, 6 (5): 454-460 May.

143. Determination of Serotonin and the Competitive Adsorption with DA at 5,5-ditetradecyl-2-(2-trimethyl-ammonioetyl)-1,3-dioxane Bromide Self-assembled Lipid Film Modified Glassy Carbon Electrode, J. M. Gong, X. Q. Lin , Analytical Sciences, 2004, 20(6):905-909 Jun.

144. Atomic force microscopy of DNA self-assembled on a highly oriented pyrolytic graphite electrode surface, X. H. Jiang, X. Q. Lin , Electrochemistry Communications , 2004, 6(9): 873-879.

145. DNA Nano-Netting Intertexture On Carbon Electrodes , X. Q. Lin, X. H. Jiang, L. P. Lu , Chin. Chem. Lett., 2004,15(8): 997-1000.

146. Attachment of DNA to the carbon fiber microelectrode via gold nanoparticles for simultaneous determination of dopamine and serotonin , L. P. Lu, S. Q. Wang, X. Q. Lin , Anal. Sci., 2004, 20 (8): 1131-1135 Aug.

147. Fabrication of Layer-By-Layer Deposited Multilayer Films Containing DNA And Gold Nanoparticle For Norepinephrine Biosensor, L. P. Lu, S. Q. Wang, X. Q. Lin, Analytica Chimica Acta , 2004, 519(2): 161-166.

148. Glassy carbon electrode modified with gold nanoparticle and DNA for the simultaneous determination of uric acid and norepinephrine under coexistence of ascorbic acid, L P Lu, X Q Lin, Analytical Science , 2004, 20(3): 527-530 Mar.

149. Electrocatalytical oxidation and selective detection of dopamine at 5,5-ditetradecyl-2-(2- trimethylammonioethyl)-1,3-dioxane bromide self-assembled bilayer membrane modified glassy carbon electrode, X Q Lin, J M Gong, Analytica Chimica Acta , 2004, 507(2): 255-261.

150. A Glassy Carbon Supported Bilayer Lipid-like Membrane of 5,5–Ditetradecyl–2-(2– Trimethyl-Ammonioethyl)–1,3-dioxane Bromide for Electrochemical sensing of Epinephrine, J. M. Gong, X. Q. Lin , Electrochimica Acta , 2004,49(25):4351-4357.

151. A selective voltammetric method for uric acid detection at a glassy carbon electrode modified with electrodeposited film containing DNA and Pt-Fe 2 O 3 nanocomposites, S. Q. Wang, L. P. Lu, X. Q. Lin, Electroanalysis , 2004, 16 (20): 1734-1738 OCT

152. 直流电位下 DNA 的纳米网络编织 , 林祥钦 , 蒋晓华 , 鲁理平 , 中国化学会第 24 届学术年会论文摘要集“新世纪的中国化学 - 机会与挑战”, 10-O-007, 10-032, 湖南长沙 2004.

153. 氨基酸和胆碱的共价单层键植碳电极及其生化分析应用,林祥钦 ;晋冠平,中国化学会第 24 届学术年会论文摘要集“新世纪的中国化学 - 机会与挑战”, 10-P-054, 10-092, 湖南长沙 2004.

154. 自组双层类脂膜的电化学研究,龚静鸣;林祥钦 ,中国化学会第 24 届学术年会论文摘要集“新世纪的中国化学 - 机会与挑战”, 05-O-009, 05-023 ,湖南长沙 2004 。

155. DNA 神经递质电化学传感器 , 林祥钦 , 鲁理平 , 蒋晓华 , 中国化学会第 24 届学术年会论文摘要集“新世纪的中国化学 - 机会与挑战”, 10-P-069, 10-107, 湖南长沙 2004.

156. DNA Deposition on Carbon Electrodes under Controlled DC Potentials, X. Q. Lin, X. H. Jiang, L. P. Lu, Biosensors and Bioelectronics, 2005, 20(9): 1709-1717.

157. Immobilization of DNA on carbon fiber microelectrodes by using overoxidized polypyrrole template for selective detection of dopamine and epinephrine in the presence of high concentrations of ascorbic acid and uric acid, X.H.Jiang; X.Q.Lin, Analyst, 2005, 130(3): 391-396.

158. Overoxidized Polypyrrole film Directed DNA Immobilization for Construction of Electrochemical Micro-biosensors and Simultaneous Determination of Serotonin and Dopamine, X.H.Jiang; X.Q.Lin,, Anal. Chin. Acta, 2005, 537: 145-151.

159. Electrodeposition of Pt-Fe(III) Nanoparticle on Glassy Carbon Electrode for Electrochemical Nitric Oxide Sensor, S Q Wang; X Q Lin, Electrochimica Acta, 2005, 50(14): 2887-2891.

160. Electrochemical generation of silver nanowires, X.Q. Lin; S.Q. Wang, Indian J. Chem., 2005, 44A(5):1016-1018. MAY.

161. Preparation and characterization of novel choline and L-glutamic acid mixed monolayer covalently modified glassy carbon electrode and analytical application for nitrite determination,G P Jin, X Q Lin,Chinese J.Chemistry,2005, 23(6): 673-677.

162. Monolayer Modification of Glassy Carbon Electrode by using Propionylcholine for Selective Detection of Uric Acid, X Q Lin; G P Jin, Electrochim. Acta, 2005, 50(16-17)MAY: 3210-3216.

163. Voltammetric behavior and determination of estrogens at carbamylcholine modified paraffin-impregnated graphite electrode, G P Jin; X Q Lin, Electrochimica Acta, 2005, 50(16-17): 3556-3562.

164. Glassy carbon electrodes modified with mixed covalent monolayers of choline, glycine, and glutamic acid for the determination of phenolic compounds, G P Jin; X Q Lin; Y F Ding, Journal of Solid State Electrochemistry, 2005, 1432-8488 (Paper) 1433-0768 (Online).

165. Multi-Wall Carbon Nanotube Paste Electrode for Adsorptive Stripping Determination of Quercetin: a Comparison with Graphite Paste Electrode via Voltammetry and Chrono- potentiometry, J B He; X Q Lin, Electroanalysis,2005, 17(18): 1681-1686.

166. Ion Channel Behavior of a tetra-(n-Hexadecylpyridiniurnyl)porphyrin and n-Hexadecylamine Fabricated Hybrid Bilayer Membrane on Glassy Carbon Electrode, X Q Lin; Y X Li, BCEIA, F21, 2005, Beijing, China.

167. Dopamine, Ascorbic Acid and Uric Acid Determination at a Poly (Vinyl Alcohol) Covalently Modified Glassy Carbon Electrode, X.Q. Lin, Y.X. Li, (第十三届有机分析与生物分析学术会议, 10月, 辽宁鞍山 2005-8-30 subm.), 分析实验室, 2005, 24(suppl): 230.

168. Heme Proteins and Multiwalled Carbon Nanotubes Containing Nafion films on a Choline Modified Glassy Carbon Electrode for Fabrication of Amperometric Biosensors, X.Q. Lin, Y.X. Li, (第十三届有机分析与生物分析学术会议, 10月, 辽宁鞍山) 2005-8-30 subm. ,分析实验室, 2005, 24(suppl): 231-232.

169. A Pt nano-clusters electrochemically deposited on multiwalled carbon nanotubes, X.Q. Lin, Y.X. Li, (第十三届有机分析与生物分析学术会议, 10月, 辽宁鞍山.), 分析实验室, 2005, 24(suppl): 227-228.

170. 在碳表面共价键种植纳米单层生物有机分子, 林祥钦, 有机化学, 2005, 25 (suppl.): 262 (CCS第四届有机化学学术会议, 昆明市, 2005年8月).

171. Voltammetry of the interaction of metronidazole with DNA and its analytical applications, X.H.Jiang; X.Q.Lin, Bioelectrochemistry, 2006, 68: 206-212.

172. Simultaneous electroanalysis of dopamine, ascorbic acid and uric acid by poly (vinyl alcohol) covalently modified glassy carbon electrode, Y. X. Li, X. Q. Lin, Sensors & Actuators: B. Chemical, 2006, 15(1): 134-139.

173. A sensitive determination of estrogens with a Pt nano-clusters / multiwalled carbon nanotubes modified glassy carbon electrode,; X. Q. Lin; Y. X. Li, Biosensors and Bioelectronics, 2006, 22(2): 253-259.

174. Monolayer covalent modification of 5-hydroxytryptophan on glassy carbon electrodes for simultaneous determination of uric acid and ascorbic acid, X. Q. Lin: Y. X. Li, Electrochim. Acta, 2006, 51(26): 5794-5801.

175. DNA/Poly(p-aminobenzensulfonic acid ) Composite Bi-Layer Modified Glassy Carbon Electrode For Determination Of Dopamine And Uric Acid Under Coexistence Of Ascorbic Acid, X. Q. Lin; G. F. Kang; L. P. Lu, Bioelectrochemistry, 2006, 70: 235-244.

176. Self–Assembly of Molyybdophosphate on the Choline Covalently Modified Glassy Carbon Electrode and the Electrocatalytic Reduction of Iodate, X Q Lin, C M Jiang, Analytical Science, 2006, 22: 697-700.

177. Fabrication of a Nanobiocomposite Film Containing Heme Proteins and Carbon Nanotubes on a Choline Modified Glassy Carbon Electrode: Direct Electrochemistry and Electrochemical Catalysis, Yongxin Li, Xiangqin Lin, Chunming Jiang, Electroanalysis, 2006, 18 (21): 2085-2091.

178. Simultaneous determination of quercetin and rutin at a multi-wall carbon nanotube paste electrodes by reversing differential pulse voltammetry, X Q Lin; J B He; Z G Zha, Sensors and Actuators B: Chemical, 2006, 119: 608-614.

179. RNA modified electrode for the simultaneous determination of dopamine and uric acid in presence of high amounts of ascorbic acid, G F Kang; X Q Lin, Electroanalysis, 2006,18(24): 2458-2466. PDF.

180. 5-羟色胺酸及其衍生物修饰玻碳电极的制备及应用, 李永新,林祥钦, 南昌大学学报(理科版), 2006, 30(suppl):865-866. (中国化学会第九届分析化学年会及第九届全国原子光谱学术会议, #272, 2006.10, 江西南昌)

181. 磷钼杂多酸在胆碱共价修饰玻碳电极上的自组装及其对溴酸根的催化还原, 姜春明,林祥钦, 南昌大学学报(理科版), 2006, 30(suppl):867-868. (中国化学会第九届分析化学年会及第九届全国原子光谱学术会议, #276, 2006.10.10-15, 江西南昌)

182. DNA/二聚氨基苯磺酸复合膜修饰电极测定多巴胺, 康广凤,林祥钦, 南昌大学学报(理科版), 2006, 30(suppl): 788-789. (中国化学会第九届分析化学年会及第九届全国原子光谱学术会议, #273, 2006.10.10-15, 江西南昌. 口头报告)

183. 多壁碳纳米管支撑的铂纳米团簇的电化学沉积及对氧的催化还原, 徐彦辉,林祥钦, 南昌大学学报(理科版), 2006, 30(suppl): 790-791. (中国化学会第九届分析化学年会及第九届全国原子光谱学术会议, #275, 2006.10.10-15, 江西南昌).

184. NO2-在纳米修饰电极上催化氧化, 朱小红, 林祥钦, 南昌大学学报(理科版), 2006, 30(suppl):1149-1150. (中国化学会第九届分析化学年会及第九届全国原子光谱学术会议, #274, 2006.10.10-15, 江西南昌. 口头报告).

生物电化学:

185. Mechanestic Studies of the Mode of Reaction of Mitomycin C under Catalytic and Electrochemical Reductive Conditions, H. Kohn; N. Zein; X.Q. Lin; J.Q. Ding; K.M. Kadish, J. Am. Chem. Soc., 1987, 109: 1833-1840.

186. 大脑探测伏安法(Voltammetry of brain probing), 陈 峻; 林祥钦, 分析化学, 1999, 27(3): 361-266.

187. 长光程薄层紫外-可见光谱电化学法测定多巴胺, 吴霖生; 崔 华; 晋冠平; 林祥钦, 分析化学, 2000,28(5):617-620.( Determination of dopamine by long path length thin-layer ultraviolet-visible spectroelectrochemistry, Wu LS; Cui H; Jin GP; Lin XQ,Chin. Anal. Chem.,2000, 28(5):617-620.)

188. Intercalation of Epinephrine with Calf-thymus ds-DNA, S.J.Zeng; X.Q.Lin, Chin.Chem.Lett., 2001,12(7): 619-622. (Zheng SJ; Lin XQ, Intercalation of epinephrine with calf-thymus ds-DNA, Chin.Chem.Lett., 2001,12,7,619-622.)

189. 分子计算机的研究进展, 尹屹梅; 林祥钦, 化学进展, 2001,13(5):337-342.( Yin YM; Lin XQ, Progress on molecular computer, Prog. in Chem.,2001,13,5,337-342.)

190. 一种单细胞电化学模拟分析装置,夏小庆;林祥钦,分析科学学报,2002,18(3):260. (A electrochemical analysis device for simulating single cell, J. Anal. Sci., 2002, 18(3): 260. CHI)

191. 充蜡石墨支撑的季铵离子/己二酸混合双层膜上钙离子诱发的离子通道行为, 龚静鸣; 林祥钦, 化学学报, 2002, 60(4):698-703. (Calcium Ion Induced Ion Channel Behavior of Supported Hybrid Bilayer Membranes on a Waxed Graphite Electrode, Aata Chiica. Sinica, 2002, 60(4):698-703. CHI)

192. 用声卡采集电生理数据的方法研究, 尹屹梅; 林祥钦, 中国科技大学学报,2002,32(3):283-287. (A study on sound-card recording method for electrophysiological data, Y Yin; X Lin, J. Univ. Sci. Technol. China., 2002,32(3):283-287. CHI)

193. 基于美洲蜚蠊下颚须的整合受体生物传感器测定抗坏血酸, 洪丽; 尹屹梅; 郑赛晶; 段亚楠; 林祥钦*,化学学报,2002,60(9):1727-1731. (Intact-Chemoreceptor Based Biosensor: Detection of Ascorbic Acid, L Hong, Y M Yin, S J Zeng, Y N Duan, X Q Lin, Acta Chemica Sinica, 2002, 60(9):1727-1731)

194. Single Alternating Group Explicit (SAGE) Method for Electrochemical Finite Difference Digital Simulation, Z.X.Deng; X.Q.Lin; Z.H.Zhong, Chin. J. Chem., 2002,20,252-262.

195. 双波长薄层紫外-可见光谱电化学方法测定多巴胺, 晋冠平; 崔华; 林祥钦; 施丽君, 理化检验-化学分册,2002,38(3):132-134. (Detection of dopamine by double wavelength thin-layer UV-Visible spectroelectrohemistry, G Jin; H Cui; X Lin; L Shi, PTCA Part B, 2002,38(3):132-134. CHI)

196. Facilitated Electron Transfer of Hemoglobin Embeded in Nanosized Fe3O4 Matrix Based on Paraffin Impregnated Graphite Electrode and Electrochemical Catalysis for Trichloroacetic Acid, (4)J. M. Gong; X. Q. Lin, Microchemical Journal, 75(1)July:51-57, 2003.

197. Ion Channel Behavior of a Supported Bilayer Lipid Membrane Composed of 5,5–Ditetradecyl -2-(2-trimethyl- ammonioethyl)–1, 3-dioxane Bromide Modified Glass Carbon Electrode, J M Gong; X Q Lin, Chin.J.Chemistry, 2003,21(7):756-760 .

198. Direct electrochemistry of horseradish peroxidase embedded in nanosized Fe3O4 matrix on paraffin impregnated graphite electrode and electrochemical catalysis for H2O2, J M Gong; X Q Lin, Chin.J.Chemistry, 2003,21(7):761-766.

199. Spectral and electrochemical investigation of Intercalations of Adrenaline and CT-DNA, S J ZHENG;X Q LIN, Chin.J.Chemistry, 2003,21(7):767-771.

200. Voltammetric Behaviour of Dopamine At DNA Modified Carbon Fiber Microelectrode and Its Analytical Applications, X Q Lin, L P Lu, Microchemia Acta, 2003, 143(4):229-235.

201. 封闭式电渗驱动方法及电渗鼓, 林祥钦, 蒋晓华, 何友昭, 发明专利, 申请日: 030404, 专利号: ZL 03 1 13129.8, 授权日: 051228, 授权公告号: CN 1233446C, 证书号: No.242478.

202. 一种DNA纳米网络编织碳电极及其制备方法, 林祥钦; 蒋晓华; 鲁理平, 发明专利,申请号:03131966.1 (申请日:2003-6-19); 03132149.6 (申请日:2003-6-29). 公开号: CN1566361A. 授权公告: 2006-9-13.

203. Voltammetry of the interaction of metronidazole with DNA and its analytical applications, X.H.Jiang; X.Q.Lin, Bioelectrochemistry, 2006, 68: 206-212.

204. Simultaneous electroanalysis of dopamine, ascorbic acid and uric acid by poly (vinyl alcohol) covalently modified glassy carbon electrode, Y. X. Li, X. Q. Lin, Sensors & Actuators: B. Chemical, 2006, 15(1): 134-139.

205. A sensitive determination of estrogens with a Pt nano-clusters / multiwalled carbon nanotubes modified glassy carbon electrode,; X. Q. Lin; Y. X. Li, Biosensors and Bioelectronics, 2006, 22(2): 253-259.

206. Monolayer covalent modification of 5-hydroxytryptophan on glassy carbon electrodes for simultaneous determination of uric acid and ascorbic acid, X. Q. Lin: Y. X. Li, Electrochim. Acta, 2006, 51(26): 5794-5801.

207. DNA/Poly(p-aminobenzensulfonic acid ) Composite Bi-Layer Modified Glassy Carbon Electrode For Determination Of Dopamine And Uric Acid Under Coexistence Of Ascorbic Acid, X. Q. Lin; G. F. Kang; L. P. Lu, Bioelectrochemistry, 2006, 70: 235-244.

超快速伏安方法:

208. 超快扫速循环伏安法的研究进展(Recent development of ultra-fast scan cyclic voltammetry), 林祥钦;赵炜;邓兆祥,安徽师大学报(自然科学版)J. of Anhui Norm. Univ. (Nature Sci.),1998,21(4):389-394.

209. 双盘工作电极参比电位采样快扫伏安方法(Twin disk working electrode: Potential sampling method for cyclic voltammetric measurements),林祥钦; 赵 炜; 邓兆祥,分析化学, 1999, 27(2): 237-241.

210. 基于AD829运算放大器的超快伏安系统,邓兆祥; 林祥钦*,分析化学,2003,31(10):1269-1273.(Ultrafast cyclic voltammetric system based on AD829 operational amplifier, Z Deng; X Lin, Chin. J. of Anal. Chem., 2003,31(10): 1269-1273. CHI)

211. Ultrafast Cyclic Voltammetry At Scan Rates Up To 3 MV/s Through A Single-Opamp Circuit With Positive Feedback Compensation Of Ohmic Drop, Z. Y. Guo, X. Q. Lin, J.Electroanal.Chem. , 2004, 568(1-2): 45-53.

212. Undistorted Cyclic Voltammograms at Scan Rates up to 2.5 MV s-1 through Positive Feedback Compensation of Ohmic Drop, Z. Y. Guo, X. Q. Lin, Z. X. Deng , Chinese J. Chemistry , 2004, 22(9): 913-919 SEPT.

213. 超快速电化学研究 , 林祥钦 , 郭智勇 , 邓兆祥 , 中国化学会第 24 届学术年会论文摘要集“新世纪的中国化学 - 机会与挑战”, 11-O-015, 11-019, 湖南长沙 2004. (Studies of Ultrafast Electrochemistry, X. Q. Lin, Z. Y. Guo, Z. X. Deng , The 24th Annual Metting of the Chinese Chemical Society , 11-O-015, April 24~27, 2004, Changsha , China ).

214. Ultrafast Double Potential Step Chronoamperometry with the Time Window Down to Submicrosecond, X Q Lin, Z Y Guo , Anal. Sci., 2004, 20(12): 1645-1647.

215. 快扫速伏安法研究进展, 林祥钦, 第九届全国电分析化学学术会议(the 9th National Conference on Electroanalytical Chemistry)大会报告, 2005.10南京, 论文摘要集, A-6, p.7. 2005.10.28~11.1, 南京.

216. Ultrafast Sinusoidal Voltammetry, Z Y Guo(3); X Q Lin, Anal. Sci. 2005, 38(6)APR:1007-1017.

217. Kinetic studies of oxygen and superoxide ion in acetonitrile at gold electrodes using ultrafast cyclic voltammetry, Z. Y. Guo, X. Q. Lin, J. Electroanal. Chem., 2005, 576(1): 95-103.

218. An Integrated Dual Ultramicroelectrode with Lower Solution Resistance Applied in Ultrafast Cyclic Voltammetry, Z Y Guo; X H Jiang; X Q Lin, Anal. Sci., 2005, 21(2): 101-105. Feb.

219. An Integrated Chemically Modified Dual-Microelectrode Sensing Probe, X Q Lin; L P Lu; X H Jiang, Chin.Chem.Lett., 2005, 16(3): 416-418.

220. Dissociation and Adsorption of Acetonitrile at Gold Electrodes on Ultrafast Voltammetry, X.Q. Lin; Z.Y. Guo; Y.H. Xu, (第十三届有机分析与生物分析学术会议, 10月, 辽宁鞍山), 分析实验室, 2005, 24(suppl): 229.

221. Compensation Of Ohmic Drop Within An Electrochemical Cell By Using An Auxiliary Working Electrode, X Q Lin; L D Feng, ISEC, I-59 (邀请口头报告). 2005.10, 长春.

222.The in-cell iR compensation using a four-electrode system, X Q Lin; L D Feng, Chin. Chem. Lett, 2006, 17(5): 703-706.

223. Direct Electrochemical Evidence of the Dissociation and Adsorption Behavior of Acetonitrile at Gold Electrodes by Ultrafast Voltammetry, Z. Y. GUO; X. Q. Lin; Y. H. Xu, Chin. Chem. Lett., 2006, 17(4): 513-516.

电致化学发光: 

224. Potential-resolved electrochemiluminescence of luminol, X.Q.Lin; H. Cui; Y.G.Sun, Chem. J. Chin. Univ., 1999,20(supplement):316.

225. 碱性鲁米诺体系在玻碳和铂电极上的电位分辨电致化学发光研究(Potential-resolved electrochemiluminescence of luminol in alkaline solutions at glassy carbon and platinum electrodes), 林祥钦; 孙玉刚; 崔 华, 分析化学, 1999,27(5): 497-503.

226. Inhibition of luminol and lucigenin chemiluminescence by reducing organic compounds, H.Cui; R.Meng; H.Y.Jiang; Y.G.Sun; X.Q.Lin, Luminescence, 1999, 14(3): 175-182.

227. Cu2+对鲁米诺阳极电致化学发光的抑制作用(Inhibition of Cu2+ to the anodic electrochemiluminescence of luminol), 孙玉刚; 崔华; 林祥钦,光谱实验室,1999, 16(6):611-614.

228. Long-lasting chemiluminescence of luminol on electrochemically pre-oxidized platinum electrodes in NaOH solution, Lin XQ; Sun YG; Cui H, LUMINESCENCE, 2000, 15(5), pp 299-304.

229. 鲁米诺在铂电极上阳极电致化学发光机理研究, 孙玉刚; 崔 华; 林祥钦, 化学学报, 2000,58(5):567-571.( Sun YG; Cui H; Lin XQ, Mechanistic study of the anodic electrochemiluminescence of luminol at platinum electrode, ACTA CHIMICA SINICA 2000, Vol 58, Iss 5, pp 567-571.)

230. Determination of some catechol derivatives by a flow injection electrochemiluminescent inhibition method, Sun YG; Cui H; Li YH; Lin XQ, TALANTA 2000, Vol 53, Iss 3, pp 661-666.,

231. 铂电极在碱性含氧溶液中的预还原处理对鲁米诺电致化学发光的影响, 孙玉刚; 崔 华; 林祥钦, 化学学报, 2000, 58(9):1151-1155.

232. 流动注射化学发光法测定啤酒中的单宁酸, 李世凤; 崔 华; 孙玉刚; 林祥钦, 光谱实验室, 2000,17(6):680-683.

233. Flow injection analysis of pyrogallol with enhanced electrochemiluminescent detection, Sun YG; Cui H; Lin XQ; Li YH; Zhao HZ, ANALYTICA CHIMICA ACTA 2000, Vol 423, Iss 2, pp 247-253. (sci)

234. Flow injection analysis of tannic acid with inhibited electrochemiluminescent detection, Sun YG; Cui H; Li YH; Zhao HZ; Lin XQ, ANALYTICAL LETTERS 2000, Vol 33, Iss 11, pp 2281-2291. (sci)

235. Determination of gallic acid by flow injection with electrochemiluminescence detection, Y.G.Sun; H.Cui; Y.H.Li; X.Q.Lin, Anal.Lett., 2000,33(15):3239-3252.( Sun YG; Cui H; Li YH; Li SF; Lin XQ, Determination of gallic acid by flow injection with electrochemiluminescent detection, Analytical Letters 2000,33,15,3239-3252. )sci

236. 鲁米诺在铂电极上电位分辨的电致化学发光研究(Investigation of potential- resolved electrochemiluminescence of luminol at platinum electrodes), 孙玉刚; 崔华; 林祥钦, “分析化学的成就与挑战”,2000,pp.443-444, 西南师大出版社, 重庆.

237. Study of electrochemiluminescence of lucigenin at glassy carbon electrodes in NaOH solution, Y.G.Sun; H.Cui; X.Q.Lin, J. Luminescence, 2001, 92(3):205-211.( Sun YG; Cui H; Lin XQ, Study of electrochemiluminescence of lucigenin at glassy carbon electrodes in NaOH solution, JOURNAL OF LUMINESCENCE 2001,92,3,205-211.)

238. Chemiluminescence of Ce(IV) and surfactant Tween 20, H.Cui; S.F.Li; X.Q.Lin, Analyst, 2001,126:553-554.( Cui H; Li SF; Lin XQ, Chemiluminescence of Ce(IV) and surfactant Tween 20, ANALYST2001,126,5,553-554.)

239. 流动注射电致化学发光抑制法测定香烟中的绿原酸, 孙玉刚; 李应会; 崔华; 林祥钦, 分析化学,2001, 29(4):459-459.

240. 流动注射化学发光增强法测定单宁酸,李世凤; 崔华; 孙玉刚; 林祥钦,分析化学, 2001, 29(3):333-335. (Li SF; Cui H; Sun YG; Lin XQ, Flow injection analysis of tannic acid with enhanced chemiluminescent detection, CHINESE JOURNAL OF ANALYTICAL CHEMISTRY 2001,29,3,,333-335.)

241. 化学发光分析法应用新进展, 韩鹤友; 崔华; 林祥钦, 光谱实验室, 2002, 19(1): 39-45. (Recent progress in analytical application of chemiluminescence, H Han; H Cui, X Lin, Chin. J. Spectroscopy Lab., 2002, 19(1): 39-45. )

242. Potential-Resolved Electrochemiluminescence of Ru(bpy)32+/C2O42- System on Gold Electrode, F.Li; H.Cui; X.Q.Lin, Luminescence,2002,17:117-122.

243. A novel chemiluminescent method for the determination of salicylic acid in bactericidal solutions, H Cui, S F Li, F Li, Y G Sun, X Q Lin, Anal. Bioanal. Chem. 2002, 372: 601-604.

244. Electrogenerated chemiluminescence behaviors of Ru(bpy)32+ system on a paraffin-impregnated graphite electrode and a glassy carbon electrode, F. Li, H. Cui, X.Q. Lin, Luminescence, 2002, 17: 98.

245. Comparative Studies on Electrogenerated Chemiluminescent and Amperometric behaviors of Ru(bpy)32+ System on a Paraffin-Impregnated Graphite Electrode and a Glassy Carbon Electrode, Feng Li,Xiang-Qin Lin* and Hua Cui*,J Electroanal.Chem. 2002, 534: 91-98.

246. Determination of adrenaline by using inhibited Ru(bpy)32+ electrochemiluminescence, F. Li, H. Cui, X.Q. Lin, Anal. Chim. Acta, 2002 , 471(2): 187-194.

247. Ru(bpy)3/2+-C2O42--PtE体系的两条电致化学发光通道, 李凤; 林祥钦; 崔华, 化学学报, 2002,60(2):304-311. (Ru(bpy)3/2+-C2O42—PtE, F Li; X Lin; H Cui, Acta Chimia Sinica, 2002, 60(2): 304-311. CHI)

248. Electrogenerated chemiluminescence behaviors of Ru(bpy)32+ system on a paraffin-impregnated graphite electrode and a glassy carbon electrode, F.Li; H.Cui*; X.Q.Lin *,第十二届国际生物发光和化学发光学术讨论会, 剑桥大学,UK, 2002.

249. Electrochemiluminescence of luminol in alkaline solution at a paraffin-impregnated graphite electrode, H Cui; G Z Zhou; X Q Lin, Anal.Chem., 2003,75(2)Jan: 324-331.

250. Cathodic electrochemiluminescence of Ru(bpy)32+/Nafion coated on graphite oxide electrode in purely aqueous solution, H Cui; X Y Zhao; X Q Lin, Luminescence, 2003, 18(4)Jul-Aug:199-202.

251. Determination of noradrenaline and dopamine in pharmaceutical injection samples by inhibition flow-injection electrochemiluminescence of Ruthenium complexes,F Li; X Q Lin;H Cui,Talanta, 2003, 59(3) March : 627-636.

252. Flow injection analysis of gallic acid with inhibited electro-chemiluminescence detection, X.Q. Lin, F. Li, Y.Q. Pang, H. Cui, Analytical and Bioanalytical Chemistry , 2004, 378(8): 2028-2033 Apr.

253. Potential-dependent electrochemiluminescence of luminol in alkaline solution at a gold electrode, Hua Cui, Zhi-Feng Zhang, Gui-Zheng Zou and Xiang-Qin Lin, J.Electroanal.Chem. , 2004, 566(2): 305-313 May.

254. Effect of pH on inhibition and enhancement of Luminol-H2O2-Co2+ chemiluminescence by phenolic compounds and amino acids , H. Cui, M. J. Shi, R. Meng, J. Zhou, C. Z. Lai, X. Q. Lin, 2004, Photochem. Photobiology, 79 (3): 233-241.

255. Inhibition of Ru complex electrochemiluminescence by phenols and anilines, H.Cui;F.Li;Ming-Juan Shi;Yong-Qiang Pang;X.Q.Lin, Electroanalysis 2005, 17(7): 589-598.  

 

纳米电化学:

256. 油酸囊泡层状液晶作为模板电化学合成银纳米颗粒,郑龙珍;金乐红;吴守国;孙秀玉;林祥钦,分析科学学报2003, 19(5): 407.

257. PreCast Nanosized Fe3O4 Dispersion as Fine Tunner of a Controllable El

 

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