搜尋
Close this search box.

/ 師資陣容 /

黃宣容

/ 學歷 Education /

美國佛羅里達大學博士(1978)
國立清華大學原科所化學組碩士(1969)
國立台灣師範大學化學學士(1966)

/ 經歷Experience /

國立中山大學化學系榮譽退休教授 (2006.02~)
國立中山大學奈米中心主任 (2002~2004)
國立中山大學理學院院長 (2001~2004)
國立中山大學化學系系主任(1992-1995)
國立中山大學化學系教授(1988~)
美國依利諾大學訪問學者(1985-1986)
國立中山大學化學系副教授(1981)
工業技術研究院聯合工業研究所研究員(1978)
研究領域以電分析化學及生化感測器之研發為主。研究主題包括:

1. 發展出以聚苯胺塗覆電極為感測器之偵測系統,由於聚苯胺具有電催化之效應,除可經由本身之氧化還原作用而對部份電活性離子進行靈敏之偵測外,亦可對非電活性離子進行偵測。此外、在聚苯胺塗覆電極上、亦可塗覆酵素或免疫抗原或抗體而成為具有偵測專一性之生化感測器。有關應用聚苯胺塗覆電極所發展成功之偵測系統如尿素酵素電極以及免疫抗體塗覆電極之免疫分析法等研究成果、已有多篇論文在國際上分析化學領域中最具權威之期刊 Analytical Chemistry上發表。

2. 應用數位交流阻抗的原理,發展出一套可同時測定電活性離子及具電吸附物種的數位交流伏安法。並已應用在FIA及液相層析之偵測上,成效相當良好。本測試系統對於非電活性但具強吸附之物種如界面活性劑,提供了一種新的分析方法,部分研究成果已發表在Analytical Chemistry期刊上。

3. 配合超微電極之製作技術,設計出可迅速拆卸適合毛細管電泳需求之電化學偵測系統,以及具32根組合電極之電化學偵測系統。應用此組合電極於LC系統以及免疫分析偵測上,不只可同時進行不同模式之偵測以獲得多種相關之數據並且可大幅提高偵測效率。部分研究成果已發表在Analytical Chemistry期刊上。

4. 探討奈米組合電極在生化及生醫分析領域上之應用,並結合奈米組合電極及微晶片製作技術發展出新的微晶片超微分析方法。

/ 著作Works /

A、期刊論文

1. W.-J. Cho, H.-J.Huang, 1998, An Amperometric Urea Biosensor Based on Polyaniline-Nafion Composite Electrode, Anal. Chem, 70, 3946. SCI.

2. T.–C.Tang, H. –J.Huang, 1999, Studies of an Alkaline Activated Glassy Carbon Electode on the Determination of Purines and DNA, J.Chin.Chem.Soc. 46,233 SCI

3. Y.-T. Shih and H.-J. Huang, 1999, A creatinine Deiminase Modified Polyaniline Electrode for Creatinine Analysis, Anal. Chim. Acta. 392, 143, SCI.

4. T.-C. Tang and H.-J. Huang, 1999, Electrochemical Studies of the Interaction of Ethidium Bromide to DNA, Electroanalysis, 11, 1185. SCI.

5. C.-H. Liu, K.-T. Liao, and H.-J. Huang, 2000, Amperometric Immunosensors Based on Protein A coupled Polyaniline-Perfluorosulfonated Ionomer Composite Electrodes, Anal. Chem. 72, 2925. SCI.

6. Y.-J. Yang, H.-J. Huang, 2001, A Polyaniline-Modified Electrode-Based FIA System for Sub-ppb-Level Chromium (VI) Analysis, Anal. Chem. 73, 1377. SCI.

7. D. Easwaramoorthy, Y. –C Yu and H. –J. Huang, 2001, Chemiluminescence Detection of Paracetamole by Luminol-Permanganate Based Reaction, Anal. Chim. Acta. 439, 95. SCI.

8. M.-H. Chao, H.-J. Huang, 2001, A Biopotentiostat Based 4-Electrode Detection System for HPLC Analysis, J. Chin. Chem. Soc. 48, 763. SCI.

9. A.-P. Deng, J. -T. Cheng, H. –J. Huang, 2002, Application of a Polyaniline Based Ammonium Sensor for the Amperometric Immunoassay of a Urease Conjugated Tal Protein, Anal. Chim. Acta. 461, 59. SCI

10. T.–C. Tang, A.–P. Deng, H.–J. Huang, 2002, Immunoassay With a Microtiter Plate Incorporated Multichannel Electrochemical Detection system, Anal. Chem. 74, 2617. SCI

11. A.P-. Deng, H. –T. Liu, S. –J. Jiang, H. –J. Huang, C. –W. Ong, 2002, Reaction Cell Inductively Coupled Plasma Mass Spectrometry-based Immunoassay Using Ferrocene Tethered Hydroxysuccinimide Ester as Label for the Determination of 2,4-dichlorophenoxyacetic Acid, Anal. Chim. Acta. 472, 55. SCI

12. C.-M. Chang and H.-J. Huang, 2003, Digital Pulse AC Voltammetry for the Simultaneous Analysis of Electroactive and Electrosorptive Species in Flow Systems, Anal. Chem. 75, 6368. SCI

13. C.-Y. Wang and H.-J. Huang, 2003, Flow Injection Analysis of Glucose Based on Its Inhibition of Electrochemiluminescence in a Ru(bpy)32+/ Tripropylamine System, Anal. Chim. Acta 498, 61. SCI

14. H.-C. Hong and H.-J. Huang, 2003, Flow Injection Analysis of Uric Acid With a Uricase- and Horseradish Peroxidase-coupled Sepharose Column Based Luminol Chemiluminescence System, Anal. Chim. Acta 499, 41. SCI

15. T.-H. Hsia, K-T Liao and H-J Huang, 2005, Flow Analysis of p-Aminophenyl Phosphate with aGold Nanoelectrode Ensemble Based Detector, Anal. Chim. Acta , 537, 315. SCI

16. K.-T Liao, H-J Huang, 2005, Femtomolar Immunoassay Based on Coupling Gold Nanoparticle Enlargement with Square Wave Stripping Voltammetry, Anal. Chim. Acta, 538, 159. SCI

B、研討會論文

1. Chih-Hung Liu and Hsuan-Jung Huang, 1999, An Immunsensor Based on Polyaniline-Perfluorosulfonated Ionomer Composited Electrode, 1999, ICCT, Taipei Taiwan.

2. Ming-Huei Chao and Hsuan-Jung Huang, 1999, Applications of a Multielectrode Arrary Detection System for LC Analysis, 1999, ICCT, Taipei Taiwan.

3. Chih-Hsien Cheng and Hsuan-Jung Huang,1999, A Solid State Polyaniline-Perfluorosulfonated Ionomer Modified Applied for LC Analysis. 1999, ICCT, Taipei Taiwan

4. Chih-Hung Liu, Wen-June Cho, Ying-Tai Shih and Hsuan-Jung Huang, 1999, 中國化學會年會,臺灣,台北

5. An-Ping Deng, Hsuan-Jung Huang, 2001, Studies of the characteristics of two enzyme-substrate systems (HRP-HQ/H2O2 and AP-pAPP) used in immuno-analysis

6. 洪秀真、曾湜雯*、黃宣容, 2001, 利用luminol-H2O2-horseradish peroxidase 化學冷光系統對尿酸及肌酸的流動注入分析

7. 王貞雅*,黃宣容, 2001, 以SiO2 Sol-Gel固定tris(2,2’-bipyridyl)ruthenium(II) 配合流動注入分析法設計非試劑消耗型電化學冷光偵測系統

8. 黃正發※、謝東宏、陳玉青、黃宣容, 2001, 以雙電極法探討聚苯胺酵素電極對天門冬素(Asparagine)的偵測

9. 陳勇利、黃正發※、黃宣容, 2001,鋰離子電池陰極材料LiMn2-xNixO4之合成與電化學特性之探討

10. Kuo-Tang Liao and Hsuan-Jung Huang, 2002, Analysis of Creatine with a Bienzyme Immobilized Polyaniline-Perfluorosulfonated Ionomer Modified Electrode. 9th Internatinal Meeting-Chemical Sensors. Boston, USA.

11. Kuo-Tang Liao, Jen-Ching Shih and Hsuan-Jung Huang, 2003, Femtomolar Detection of Rabbit Immunoglobulin G Based on Signal Enhancement of Nano-gold Particles Labeled on Immunoreagent. ICCT, Taipei, Taiwan.

12. Tsung-Huang Hsia and Hsuan-Jung Huang, 2003, Flow Analysis of p-Aminophenyl Phosphate with an Alkaline Phosphatase Modified Gold Nanoelectrode Array. ICCT, Taipei, Taiwan.

13. Chun-Bo Yu and Hsuan-Jung Huang,2004, A Polyaniline-perfluorosulfonated Ionomer Composite Electrode Based Carbon Dioxide Sensor中國化學會年會,臺灣,台中

14. .Shern-Long Lee and Hsuan-Jung Huang, 2004, Fabrication and Characterization of a Gold Ultramicro-Nanoelectrode Ensemble中國化學會年會,臺灣,台中

/ 專利Patents /