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教授介紹


 
萬本儒 教授

Ben-Zu Wan

電話(02)3366-3021
傳真(02)23623040

電子郵件 benzuwan@ntu.edu.tw

辦公室:114A

 

研究室資料

化工製程研究室

工221

(02)3366-3025
學經歷

國立清華大學   化學學士,1975
美國德州農工大學 化學碩士,1980
美國德州農工大學 化工碩士,1982
美國德州農工大學 化工博士,1986


研究主題

觸媒及反應工程
我的研究領域是觸媒,反應工程,及程序&產品開發。過去數年已研究過以下主要事項:1.含金屬 ZSM-5 AlPO4-5 微孔洞分子篩之合成及鑑定;2.乙烷氧化脫氫反應;3.由丙烷合成苯類產物;4.改善合成 PET Sb2O3 觸媒系統;5.研發廢 PET 之分解程序;6.由選擇性催化燃燒氫氣以改善異丁烯製程。近年研究內容則包括: 1. 研發奈米金材料,應用該材料於低溫下轉化或催化燃燒一氧化碳氣體,並應用該材料於防毒口罩或燃料電池系統。2. 研發及製造多重能隙高效率光電池,及應用該光電池系統於發電,或於光催化水分解程序中製造氫氣(乾淨能源)。3. 研發中孔型二氧化矽材料以製備低介電薄膜及抗反射膜,並應用相關材料於積體電路、光電池及電視螢幕。


最新研究

    1. Preparation of Molecular Sieve Type Silica for the Applications in Low-k Films (1/2), 製備分子篩孔洞型二氧化矽膠體液及應用於製備低介電薄膜 (1/2), NSC 97-2221-E-002-089-MY2 , NT$ 1,176,000, 8/1/2008 7/31/2009.


榮譽獎項

1. Guest Editor of Catalysis Today, for special issue “Catalysis for New Energy Resources and Environmental Protection”, Volume 97, Issues 2-3, 27 October 2004.  ISSN 0920-5861

2. Catalyst Committee of international conference, GOLD 2006, Limerick, Ireland, September 3 to 6, 2006.

3. Organization Committee of 2008 Taiwan/Korea/Japan ChE Conference and 55th TwIChE Annual Conference, Taipei, Taiwan, November 20 to 22, 2008.

 
代表著作 所有著作

    1. J.-N. Lin and B.-Z. Wan, “Reaction Kinetics of Propane Catalytic Combustion on Cr/γ-Al2O3, Co/Cr/γ-Al2O3, and Au/Cr/γ-Al2O3,” Journal of the Chinese Institute of Chemical Engineers, 35/2, 149-159 (2004). (SCI, EI)

     

    2. J.-H. Liu, Y.-S. Chi, H.-P. Lin, C.-Y. Mou and B.-Z. Wan, “Design of a High-Performance Catalyst for CO Oxidation: Au Nanoparticles Confined in Mesoporous Aluminosilicate,” Catalysis Today, 93-95, 141-147 (2004). (SCI, EI)

     

    3. Y.-W. Tai, J.-S. Chen, C.-C. Yang and B.-Z. Wan, “Preparation of Nano-Gold on K2La2Ti3O10 for Producing Hydrogen from Photo-Catalytic Water Splitting,” Catalysis Today, 97, 95-101 (2004). (SCI, EI)

     

    4. W.-Y. Yu, C.-P. Yang, J.-N. Lin, C.-N. kuo and B.-Z. Wan, “Preparation of Au/TiO2 for Catalytic Preferential Oxidation of CO under Hydrogen Rich Atmosphere around Room Temperature,” Chemical Communications, 3, 354-356 (2005). (SCI)

     

    5. F.-Y. Wang, B.-Z. Wan and S. Cheng, “Study on Gd3+ and Sm3+ Co-Doped Ceria-Based Electrolyte,” Journal of Solid State Electrochemistry, 9, 168-173 (2005). (SCI, EI)

     

    6. C.-Y. Ting, H.-S. Sheu and B.-Z. Wan, “Porosity Analysis of Spin-on Mesoporous Silica Films,” Studies in Surface Science and Catalysis, 156, 295-302 (2005). (SCI, EI)

     

    7. J.-H. Chen, J.-N. Lin, Y.-M. Kang, W.-Y. Yu, C.-N. Kuo and B.-Z. Wan, “Preparation of Nano-gold in Zeolites for CO Oxidation: Effects of Structures and Number of Ion Exchange Sites of Zeolites,” (Invited) Applied Catalysis A: General, 291, 162-169 (2005). (SCI, EI)

     

    8. C.-W. Chiang, A.-Q. Wang, B.-Z. Wan, C.-Y. Mou, “High Catalytic Activity for CO Oxidation of Gold Nanoparticles Confined in Acidic Support Al-SBA-15 at Low Temperatures,” Journal of Physical Chemistry B, 109(38), 18042-18047 (2005). (SCI, EI)

     

    9. F.-Y. Wang, S. Cheng, C.-H. Chung and B.-Z. Wan, “Y2O3 and MgO Co-doped Ceria Based Electrolytes,” Journal of Solid State Electrochemistry, 10(11), 879-885 (2006). (SCI, EI)

     

    10. C.-Y. Ting, H.-S. Sheu, W.-F. Wu and B.-Z. Wan, “Porosity Effects on Properties of Mesoporous Silica Low-k Films Prepared by Using Tetraethylorthosilicate with Different Templates” Journal of The Electrochemical Society, 154(1), G1-G5 (2007). (SCI, EI).This paper has been selected for the December 4, 2006 issue of Virtual Journal of Nanoscale Science & Technology (published by the American Institute of Physics and the American Physical Society).

     

    11. J.-T. Luo, W.-F. Wu, H.-C. Wen, B.-Z. Wan, Y.-M. Chang, C.-P. Chou, J.-M. Chen and W.-N. Chen “The Role of Hydrophobic Group on the Surface of Ultra Low Dielectric Constant Porous Silica Film during Thermal Treatment,” Thin Solid Films, 515, 7275-7280 (2007). (SCI, EI)

     

    12. C.-N. Kuo, H.-F. Chen, J.-N. Lin and B.-Z. Wan “Nano-Gold Supported on TiO2 Coated Glass-Fiber for Removing Toxic CO gas from air,” Catalysis Today, 122, 270-276 (2007). (SCI, EI)

     

    13. W.-Y. Yu, W.-S. Lee, C.-P. Yang and B.-Z. Wan “Low-Temperature Preferential Oxidation of CO in a Hydrogen Rich Stream (PROX) over Au/TiO2: Thermodynamic Study and Effect of Gold-Colloid pH Adjustment Time on Catalytic Activity,” Journal of the Chinese Institute of Chemical Engineers, 38, 151-160 (2007). (SCI, EI)

     

    14. W.-S. Lee, B.-Z. Wan C.-N. Kuo, W.-C. Lee and S. Cheng “Maintaining Catalytic Activity of Au/TiO2 during the Storage at Room Temperature,” Catalysis Communications, 8, 1604-1608 (2007). (SCI, EI)

     

    15. J.-T. Luo, H.-C. Wen, C.-P. Chou, W.-F. Wu and B.-Z. Wan “Reinforcing Porous Silica with Carbon Nanotubes to Enhance Mechanical Performance,” J. of Composite Materials, 41(8), 979-991 (2007). (SCI, EI)

     

    16. F.-Y. Wang, S. Cheng, B.-Z. Wan, C.-H. Chung and M.-J. Chen “A Novel Method for Preparing Highly Porous Gadolinia-Doped-Ceria Ceramics,” Ceramic Int., 34, 1989-1992 (2008). (SCI, EI)

     

    17. F.-Y. Wang, S. Cheng, B.-Z. Wan “Porous Ag-CGO Cermets as Anode Materials for ITSOFC Using CO Fuel,” Catalysis Communications, 9, 1519-1599 (2008). (SCI, EI)

     

    18. C.-T. Tsai, H.-Y. Lu, C.-Y. Ting, W.-F. Wu, and B.-Z. Wan “Increasing Mechanical Strength of Mesoporous Silica Thin Films by Addition of Tetrapropylammonium Hydroxide and Refluxing Processes,” Thin Solid Films, 517, 2039-2043 (2009). (SCI,EI)

     

    19. T.-R. Lin, B.-Z. Wan, H.-P. Lin and C.-Y. Mou “Desulfurization of Vacuum Gasoil by MCM-41 Supported Molybdenum-Nickel Catalysts,” I&EC Research, accepted. (SCI,EI)

     

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    Patents

     

    1. 陳忠吾,萬本儒,陳劉旺,一種增加PET反應速率的方法,中華民國發明專利第71477, 專利期間 1995/04/21-2013/12/02.

     

    2. 萬本儒,高志宇,林建作,低碳烷類的轉化反應,中華民國發明專利第71752, 專利期間 1995/06/11-2013/08/02.

     

    3. B.-Z. Wan and Y.-M. Kang, Preparation of Supported Gold Catalysts for Carbon Monoxide Oxidation, US Patent 5,550,093, 專利期間1996/08/27-2015/06/14.

     

    4. 高志宇,萬本儒,/HZSM-5觸媒系統製備方法,中華民國發明專利第84386, 專利期間 1997/01/21-2014/05/02.

     

    5. 萬本儒,蕭志揚,康義明,製備催化一氧化碳氧化反應之金鐵鋁矽觸媒的方法,中華民國發明專利第97979, 專利期間 1998/07/11-2014/09/14.

     

    6. 鄭武順,萬本儒,高志宇,利用觸媒於聚對苯二甲酸乙二酯分解製程的方法,中華民國發明專利第142348, 專利期間 2001/08/01-2017/04/08.

     

    7. 萬本儒,林立千,楊國峰,一種增加PET合成之聚縮合反應速率的方法,中華民國發明專利第160524, 專利期間 2002/08/01-2018/10/13.

     

    8. 萬本儒,陳皇甫,林俊男,郭建男,游文岳,去除一氧化碳之含奈米金纖維製備方法,中華民國發明專利第I239856, 專利期間 2005/09/21-2022/11/19.

     

    9. 萬本儒,丁致遠,歐陽德發,具有低介電常數之多孔性氧化矽薄膜的製造方法,中華民國發明專利第I243149, 專利期間 2005/11/11-2021/03/29.

     

    10. 丁致遠,蔡承宗,萬本儒,增加孔洞型二氧化矽薄膜材料機械強度之方法,中華民國發明專利第I243415, 專利期間 2005/11/11-2024/12/14.

     

     

    Technology Transfer

     

    1. 去除一氧化碳之含奈米金防毒面罩材料開發研究, 耀文企業有限公司, 91/8/1~96/8/1, NT$ 50000.

     

    2. 含奈米金纖維改進研究, 耀文企業有限公司, 93/8/1~98/8/1, NT$ 50000.