研究生: |
黃祐杰 Huang, You-Jie |
---|---|
論文名稱: |
電流式微小氬氣電漿-氣相層析偵測器 A Current Type Gas Chromatography Detector Employing Micro Argon Plasma |
指導教授: |
呂家榮
Lu, Chia-Jung |
學位類別: |
碩士 Master |
系所名稱: |
化學系 Department of Chemistry |
論文出版年: | 2016 |
畢業學年度: | 104 |
語文別: | 中文 |
論文頁數: | 77 |
中文關鍵詞: | 介電質 、常壓電漿 、氣相層析 |
英文關鍵詞: | dielectric barrier, atmospheric plasma, gas chromatography |
DOI URL: | https://doi.org/10.6345/NTNU202203592 |
論文種類: | 學術論文 |
相關次數: | 點閱:117 下載:15 |
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摘要
本實驗利用自行組裝的微型化介電質放電電漿應用於揮發性有機氣體分子的偵測,此微型化電漿偵測器是把不鏽鋼毛細管柱塞入玻璃管中密封後,並於玻璃管外纏繞電線製作而成。於電極兩端施加電壓9 kVp-p的高壓交流電後,可於常壓環境下形成穩定的電漿。本研究以氬氣作為載流氣體偵測訊號,當揮發性有機氣體通過電漿時,會和電漿中的氬離子發生反應,導致氬氣電漿的背景電壓值有明顯的變化。本研究進一步探討感測電極與電漿的距離、流速、電壓與反應訊號之間的關係,以找出在每一個不同變因下的最佳條件。當不同官能基的有機氣體分子,如烷類、醇類、酮類、酯類、芳香族;及鹵化物通過氬氣電漿時,皆有明顯的訊號變化。且訊號強度會隨著有機物碳鏈長度的增加而有逐漸增強的趨勢。本偵測器對iso-butanol的最低偵測下限為1.61 ng。此偵測器的優點為體積小、製作成本低,且有機氣體通過電漿時,訊號皆會有明顯的變化,因此可以應用於揮發性有機氣體的偵測。
關鍵字:介電質、常壓電漿、氣相層析
Abstract
A self-assembly miniaturized dielectric barrier discharge plasma has applied for the detection of volatile organic gas molecules in this experiment. This miniaturized plasma detector was made by inserting a stainless steel capillary column into a glass tube and sealed it inside a glass tube, then tangled an electric wire around the glass tube. A high-voltage alternating current was applied on both electrodes, a stable plasma was generated under atmospheric pressure. In this experiment , we use argon as a carrier gas to detect signal. When volatile organic gas molecules passed through the plasma, they would reacted with argon ions in the plasma, caused an obviously change in the background voltage of argon plasma. This research further investigated the correlation of the distance between the electrode and plasma, flow rate and voltage to the response of detector ,to find the optimum condition in each variables. When organic gas molecules with different functional groups, such as: alkanes, alcohols, ketones, esters, aromatics and halide passed through the argon plasma ,they all caused an obviously change in the signal. And the intensity of the signal would gradually increased followed by the increasing of the length of carbon chain of organic compounds. The lowest detection limit of this detector for iso-butanol was 1.61 ng. This detector has the advantages of small volume, low cost, and would showed a significant change in the intensity of the signal when organic gas molecules passed through the plasma, therefore, it can be applied for the detection of volatile organic gas molecules.
Key words:dielectric barrier、atmospheric plasma、gas chromatography
參考文獻
1. R. C. Pitkethly. Analytical Chemistry.30,(8),1958.1309-1314.
2. Harley,J., and Pretorius,V.: A new detector for vapor phase chromatography.Nature.178,(4544),1956.1244-1244.
3. Yu-Mao Fu, Shih-Chi Chu., and Chia-Jung Lu: Characteristic responses of an atmospheric pressure DC micro-plasma detector for gas chromatography to organic functional groups. Microchemical. Journal.89,(1),2008.7-12.
4. Fanying Meng, XinYuan, Xuemei Li, Yong Liu, and Yixiang Duan: Microplasma-based detectors for gas chromatograph: current status and future trends. Taylor&Francis.49,2014.533-549.
5. 暉盛科技股份有限公司:電漿清洗機介紹。
6. 大氣電漿應用於有機物清除設備之簡介:江俊毅、陳源孟:半導體科技雜誌導讀技術專文。
7. Mikio Kuzuya and Edward H. Piepmeier: Oscillating-plasma glow discharge as a detector for gas chromatography. Analytical Chemistry.63,(17),1991.1763-1766.
8. J.E.Lovelock: A sensitive detector for gas chromatograph. Journal of Chromatography.1,(1958).35-46.
9. Hyo J.Kim ,Young A. Woo ,Jong S.Kang , Susanna S. Anderson, and Edward H. Piepmeier: Development of an atmospheric pressure glow discharge detector for capillary column gas chromatography Mikrochimica Acta.134,2000.1-7.
10. J.E.Lovelock.Nature.181,1958.1460-1462.
11. J.E. Lovelock.Nature.187,1960.49-50.
12. R. A. Landowne, S. R. Lipsky.Nature.189,1961.571.
13. Edward R. Fisher and Maclyn Mccarty, JR: Highly sensitive electric discharge detector for chromatographic analysis. Analytical Chemistry. 37,(10),1965.1208-1210.
14. Robert B.Costanzo, Eugene F. Barry. Analytical Chemistry. 60,(8),1988.826-829.
15. Shree Narayanan, Gary Rice ,Masoud Agah: Characteristic of a micro-helium discharge detector for gas chromatography. Sensors and Actuators B : Chemical.206,(2015).190-197.
16. D.S.Forsyth: Pulsed discharge detector: theory and applications, Review. Journal of Chromatography A . 1050,(2004). 63-68.
17. M. Miclea , K.Kunze ,G. Musa , J. Franzke , K.Niemax. Spectrochimica Acta Part B.56,(2001).37-43.
18. 博精儀器:ICP-OES原理概論。
19. Douglas A.Skoog, F.James Holler, Stanley R. Crouch: Principles of Instrumental Analysis,6th Editions.
20. 郭有斌,微中空陰極陣列常壓電漿與低溫成長碳奈米結構,國立成功大學化學工程研究所博士論文,2003。
21. 台灣Wiki-中空陰極電漿產生原理。
22. 凌國基,輔仁大學物理系 -sputter。
23. 朱世崎,微小化氦氣電漿放射光譜應用於氣相層析偵測器之研製,天主教輔仁大學化學研究所碩士論文,2008。
24. 洪德裕,微小化介電質氮氣電漿放射光譜應用於氣相層析偵測器之研製,國立臺灣師範大學化學研究所碩士論文,2013。
25. Zhenli Zhu, Qingju, Wu, Zhifu Liu, Lu Liu, Hongtao Zheng, and Shenghong Hu: Dielectric barrier discharge for high efficiency plasma-chemical vapor generation of cadmium. Analytical Chemistry. 85, 2013,4150-4156.
26. Zhifu Liu, Zhenli Zhu, Qingju Wu, Shenghong Hu and Hongtao Zheng: Dielectric barrier discharge-plasma induced vaporization and its application to the determination of mercury by atomic fluorescence spectrometry. Analyst.136, 2011.4539-4544.
27. Xuming Guo, Ralph E. Sturgenon, Zoltan Mester, and Graeme J. Gardner: UV vapor generation for determination of selenium by heated quartz tube atomic absorption spectrometry. Analytical Chemistry.75, 2003.2092-2099.
28. Joaquim A.Nobrega, Ralph E. Sturgenon, Patricis Grinberg, Graeme J. Gardner, Christine S. Brophy and Edivaldo E Garcia: UV photochemical generation of volatile cadmium species J.Anal.At. Spectrom. 26, 2011. 2519-2523.
29. M.H. Arbab-Zavara , M.Chamsaza ,A. Youssefib, M. Chamsaza, Aliakbaria: Electrochemical hydride generation atomic absorption spectrometry for determination of cadmium. Analytica Chimica Acta 546,(2015).126-132.
30. Sandra E. Spencer, Chelsea A. Tyler , Michael P. Tolocka, and Gary L. Glish: Low-temperature plasma ionization-mass spectrometry for the analysis of compounds in organic aerosol particles: Analytical. Chemistry.87, 2015.2249-2254.
31. K.Kunze , M. Miclea, J. Franzke, K. Niemax: The dielectric barrier discharge as a detector for gas chromatography. Spectrochimica Acta Part B 58,(2003).1435-1443.