教授介紹


 

康敦彥 助理教授

Dun-Yen Kang

電話(02)33661767
傳真(02)23623040

電子郵件 dunyen

辦公室:工綜475

 

研究室資料

多功能材料實驗室

舊數學館302,304

(02)33663069

學經歷

國立臺灣大學         化工學士,2004

國立臺灣大學         應力碩士,2006

美國喬治亞理工學院   化工博士,2012


研究主題

多功能奈米材料的製備與應用

製備具有多重功能性以及精準跨尺度微結構的奈米材料為現今材料學與能源/環境/化學工程的關鍵挑戰。本研究團隊利用最前端的實驗方法、結構鑑定以及分子模擬,企圖解開在奈米材料的合成中,不同尺度下(從分子級到微米尺度)材料自組裝的機制。從對材料合成機制的掌握,我們可以針對多項工程領域,設計新穎高效能的奈米材料,應用領域涵蓋:再生能源系統、溫室氣體減量、生質能源、化工節能程序等。


本研究團隊現階段有三項研究主題:

1. 多功能性無機奈米材料(奈米管、奈米孔洞材料)的合成與自主裝機制的探討。

2. 有機薄膜跨尺度微結構控制與性質分析。

3. 純無機奈米孔洞薄膜的噴塗製備技術。



最新研究


榮譽獎項

 
代表著作 近五年著作

1. Singh, T; Kang, D.-Y.; Nair, S.*, "Rigorous Calculations of Permeation in Mixed-Matrix Membranes: Evaluation of Interfacial Equilibrium Effects and Permeability-Based Models", J. Membr. Sci., 2013, 448, 160-169 (SCI,EI)

2. Wunsch, B.H.; Rumi M.; Tummala, N.R.; Risko Chad; Kang, D.-Y.; Steirer, X; Gantz, J; Said, M.; Armstrong, N; Bredas, J.-L; Bucknall, D.G.; Marder S. R.*, "Structure– Processing–Property Correlations in Solution-Processed Small-Molecule Organic Solar Cells", J. Mater. Chem. C, 2013, 34 (1), 5250-5260  (SCI,EI)

3. Yucelen, G. I.; Kang, D.-Y.; Schmidt-Krey, I.; Beckham, H. W.; Nair, S.*, "A Generalized Kinetic Model for the Formation and Growth of Single-Walled Metal Oxide Nanotubes", Chem. Eng. Sci., 2013, 90 (7), 200-212 (SCI,EI)

4. Zhang, J.; Kang, D.-Y.; Barlow S.; Marder, S. R.*, "Transition Metal-Catalyzed C-H Activation as a Route to Structurally Diverse Di(arylthiophenyl)- Diketopyrrolopyrroles", J. Mater. Chem., 2012, 22 (40), 21392-21394 (SCI,EI)

5. Kuwahara, Y.; Kang, D.-Y.;. Copeland, J.; Bollini, P.; Sievers, C.; Kamegawa, T.; Yamashita, H.; Jones, C. W.*, "Enhanced CO2 Adsorption over Polymeric Amines Supported on Heteroatom-incorporated SBA-15 Silica: Impact of Heteroatom Type and Loading", Chem. Eur. J., 2012, 18 (52), 16649-16664 (SCI,EI)

6. Kuwahara Y.; Kang, D.-Y.; Copeland, J.; Brunelli, N. A.; Didas S. A.; Bollini, P.; Sievers, C.; Kamegawa, T.; Yamashita H.; Jones, C. W.*, "Dramatic Enhancement of CO2 Uptake by Poly(ethyleneimine) Using Zirconosilicate Supports", J. Am. Chem. Soc., 2012, 134 (26), 10757-10760 (SCI,EI)

7. Yucelen, G. I.; Kang, D.-Y.; Guerrero, R. C.; Wright, E. R.; Beckham, H. W.; Nair, S.*, "Shaping Nanotubes at the Molecular Scale from Precursors of Controlled Curvature", Nano Lett., 2012, 12 (2), 827-832 (SCI,EI)

8. Kang, D.-Y.; Tong, H. M.; Zang, J.; Sholl. D.S.; Jones, C. W.*; Nair, S.*, "Single-Walled Aluminosilicate Nanotube / Poly (vinyl alcohol) Nanocomposite Membranes", ACS Appl. Mater. Interfaces, 2012, 4 (2), 965-972 (SCI,EI)

9. Kang, D.-Y.; Jones, C. W.*; Nair, S.*, "Modeling Mass Transport in Composite Membranes with Tubular Fillers", J. Membr. Sci., 2011, 381 (1), 50-63 (SCI,EI)

10. Kang, D.-Y.; Zang, J.; Jones, C. W.*; Nair, S.*, "Single-Walled Aluminosilicate Nanotubes with Organic-Modified Interiors", J. Phys. Chem. C, 2011, 115 (15), 7676-7685 (SCI,EI)

11. Kang, D.-Y.; Zang, J.; Wright, E. R.; McCanna, A. L.; Jones, C. W.*; Nair, S.*, "Dehydration, Dehydroxylation, and Rehydroxylation of Single-Walled Aluminosilicate Nanotubes", ACS Nano, 2010, 4 (8), 4897-4907 (SCI,EI)