67. 在微機電元件之測試及檢測技術中,因範圍廣大所以須有不同領域的專家
來參與,方能達成其最佳的應用及效能。
由上述的說明可知本研究團隊對於微機電元件之理論分析設計、微機
電製程技術、高階特殊微機電製程技術、生物/醫學測試檢驗及微感測器於生
環境上的檢驗之應用等之相關技術均具有相當之水準,應用於『微機電元
件設計與製造特色實驗室』之教學上必定可得到相當好的成果。
(a) Glass substrate cleaning 1500
m)
(h
1000
o
(b) Electron-beam evaporation of Pt/Cr
500
tance
Re
0
s
is
(c) Electron-beam evaporation of Au/Cr
0 20 40 60 80
Formaldehyde Concentration (ppm)
(d) NiO sputtering
圖十六、VOC sensor 的 NiO 薄膜感測層,在 300℃時對甲醛之檢測。
67
68. 主要研究成果
1.薩支高 (Sah,Jy-Gau)
1. 利用觸媒提升電動力法處理受 BTEX 污染土壤效率之研究,中國農業化學會誌,
43(4): 304-312,2005
2. 電化學觸媒在電動法復育技術上之應用,技術學刊,18(3):337-344,2003
3. Nitrogen Removal in Leachate Using Carrousel Activated Sludge Treatment Process,
Journal of Environmental Science and Health, Part A—Toxic/Hazardous Substances &
Environmental Engineering, 37(9), 2002, (SCI)
4. 受柴油污染土壤電動法復育技術參數之建立,國立屏東科技大學學報
11(4):277-285(2002)
5. Electrokinetic study on copper contaminated soils, Journal of Environmental Science and
Health-Part A,35 (7), 2000 (SCI)
6. 以電動法移除土壤中鋅的初步研究,中國農業化學會誌,37(1): 54-62,1999
7. 不同因子對土壤中鎘的電動法移除效率影響,土壤與環境,2(2): 171-186,1999
8. 鹼化處理對土壤中廢機油清除之影響,技術學刊,14(3):405-409,1999
9. 由鎘及鉛存在形態來探討萃取法及電動法土壤復育效率,技術學刊 13(4): 641
-646,1998
10. Study of the electrokinetic process on Cd and Pb spiked soils,Journal of Hazardous
Materials,58(1-3): 309-322,1998 (SCI)
11. 以 EDTA 萃取配合物理序列沉降法復育受鎘及鉛污染土壤之初步研究,中國農業
化學會誌,36(6): 565-575 ,1998
12. 模擬長期風化系統對含銅及鉛固化污泥物化特性的影響,屏東科技大學學報,
7(1):21-29,1998
13. 以不同消化方法探討本省南部及東部農業區與都會區數種土壤中重金屬含量及其
存在形態的差異,土壤與環境,1(1):31-43,1998
14. 高雄都會公園土壤與植體重金屬調查分析,國家公園學報,8(2):134-154,1998
15. 含銅及鉛工業污泥水泥系固化體特性的初步研究,屏東科技大學學報,6(4):
68
69. 283-291,1997
2.林傑(Lin,Chieh)
(1)Chieh Lin , Yung-Feng Lai , Yung-Chung Chen , Jin-Yu Tsai and Yin-Yan
Lee . 2000. Correlation between the Operation Parameters and the
Products of Incomplete Combustion in a Laborator y Scale Spouted Bed
Incinerator . Proceedings of the Second International Conference on
Solid Waste Management . pp . 323-331.
(2)Chieh Lin , Yung-Feng Lai , Yung-Chung Chen , Jin-Yu Tsai and Yin-Yan
th
Lee . 1999. The Analysis of VOC and SVOC from Superfund Sites. Proceedings 14
Waste Management Technology Conference. pp4-16~4-19.
(3) Chieh Lin, Yin-Yan Lee, Shun-Hua Dun, Ya-Lynn Huang. 1999. Application of Relative
Comparison Approach to Analyze PCBs from the Extraction of Insulation Oil.
Proceedings 14th Waste Management Technology Conference. Pp 8-38~8-43.
(4) Che-Kuan Chen,Chieh Lin*,Lin-Chi Wang,Guo-Ping Chang-Chien, “Size Distribution of
Polychlorinated Dibenzo-p-dioxins and Dibenzofurans in the Bottom Ash of Municipal
Solid Waste Incinerators” , Chemosphere,(2006) In Press.
(5) Kai Hsien Chi, Moo Been Chang,*, Guo Ping Chang-Chien, Chieh Lin, “Characteristics
of PCDD/F congener distributions in gas/particulate phases and emissions from two
municipal solid waste incinerators in Taiwan” ,Science of the Total Environment, 347,
pp148– 162 (2005).
(6) Wei-Shan Lee, Guo-Ping Chang-Chien, Lin-Chi Wang, Wen-Jhy Lee, Perng-Jy Tsai,
Kuen-Yuh Wu and Chieh Lin, “Source Identification of PCDD/Fs for Various
Atmospheric Environments in a Highly Industrialized City” ,Environ. Sci. Technol., 38,
pp4937-4944 (2004).
(7) Wei-Shan Lee, Chung-Shin Yuan, Lin-Chi Wang, Che-Kuan Chen, Chieh Lin and Guo-
Ping Chang-Chien, “Evaluating the Influence of PCDD/F Emission from Municipal Solid
Waste Incinerators on Ambient Air by PCDD/F Concentration Isopleths and Principal
Component Analysis” ,Journal of the Chinese Institute of Environmental Engineering,
Vol. 14, No. 2, pp107-116 (2004).
(8) Chi, K. H., Chang, M. B., Chang-Chien, G. P. and Lin C., “Characteristic of PCDD/F
Congener Distributions in Gas/Particulate Phases and Emission from Two Municipal
Solid Waste Incinerators in Taiwan” , The Science of Total Environment (Accepted in
press).
(9) Y.J. Lin, Chieh Lin, K.J. Yeh, and A. Lee, “Photodegradation of the Herbicides Butachlor
and Ronstar Using Natural Sunlight and Diethylamine”, Bulletin of Environmental
Contamination and Toxicology, 64(6) pp780-785 (2000).
69
70. (10) Chieh Lin, Wen-Shyong Li, Shui-Jen Chen, and Chen-Pin Chan,“Formation and
Destruction of the Aromatic Products of Incomplete Combustor(PICs) During the
Chlorinated Organic Compounds Incineration in a Lab-Scale Combustor”, Journal of the
Air & Waste Management Association (Submitted).
(11) Chieh Lin, M. B. Chang, G. P. Chang-Chien, and Y. H. Chan, “PCDD/Fs Conversion and
Reformation onto the Catalytic Fly Ash Matrix”, Environment International (Submitted).
70
71. 3.葉桂君 (Yeh, K.J.)
(1) Yeh, C. K-J., Novak, J. T., 1994, Anaerobic biodegradation of gasoline oxygenates in soils,
Water Environment Research, 66:744-752.(SCI)
(2) Yeh ,C. K-J., Novak, J. T., 1995, The effects of hydrogen peroxide on the degradation of
methyl and ethyl tert-butyl ether in soils, Water Environment Research, 67:828-834.(SCI)
(3) Lin, Y. J., Lin, C., Yeh, C. K-J., Lee, A., 2000, Photodegradation of the herbicides
butachlor and Ranstar using natural sunlight and diethylamine, Bulletin of Environmental
Contamination and Toxicology, 64:780-785. (SCI)
(4) Wang, Y. M., Chen, T. C., Yeh, K-J., Shu, M.F., 2001, Stabilization of an elevated heavy
metal contaminated site. Journal of Hazardous Materials, B88:63-74. (SCI)
(5) Yeh, C. K-J. Kao, Y-A., Cheng, C-P., 2002, Oxidation of chlorophenols in soil at natural
pH by catalyzed hydrogen peroxide: the effect of soil organic matter. Chemosphere,
46:67-73. (SCI)
(6) Yeh, C. K-J. , Peng, S-L. Hsu, I-Y., 2002, Co-surfactant of ethoxylated sorbitan ester
(Tween) and sorbitan monooleate (Span 80) for enhanced flushing of PCE. Chemosphere,
49:421-430 (SCI)
(7) Yeh, C. K-J., Wu, H-M., Chen, T-C., 2003, Chemical oxidation of chlorinated non-
aqueous phase liquid by hydrogen peroxide in natural sand systems, Journal of Hazardous
Materials, B96: 29-51. (SCI)
(8) Yeh, C. K-J., Lin, L-C., 2003, Sorption and desorption kinetics of surfactants
TX-100 and DPC on different fractions of soils. Journal of Environmental Science and
Health Part A-Toxic/Hazardous Substances & Environmental Engineering, A38:
1145-1157. (SCI)
(9) Yeh, C. K-J., Young, C-C., 2003, Effects of fine fractions and surfactant sorption on the
reduction of contaminants in coarse fractions during soil washing, Journal of
Environmental Science and Health Part A-Toxic/Hazardous Substances & Environmental
Engineering, A38: 2697-2790. (SCI)
(10) Yeh, C. K-J., Chen, W-S., Chen W-Y., 2004, Production of hydroxyl radicals from the
decomposition of hydrogen peroxide catalyzed by various iron oxides at pH 7, ASCE
Practice Periodical of Toxic, Hazardous and Radioactive Waste Management. (EI) (In
press)
71