專案教師
蔣孝澈教授
奈米材料實驗室
學校分機:34213、34240
信箱:stchiang@cc.ncu.edu.tw
  • 奈米氧化鋯製程
  • 玻璃表面耐磨雙疏塗層
詳細介紹

電話:34213、34240
信箱:stchiang@cc.ncu.edu.tw
研究室:工一館 E205
實驗室:奈米實驗室 E203
學歷:沃斯特理工學院化學工程博士
研究領域:沸石、氧化物、炭黑等奈米粒子濕法合成、改質及應用
 研究背景

 論文著作

Publication list (2019/2)

  1. Luan, Tran Ba; Chin, Hao-Yu; Chang, Bor-Kae*; Chiang, Anthony S. T.**, (2019),  Dye adsorption in ZIF-8: The importance of external surface area. Microporous and Mesoporous Materials, 277, 149-153.
  2. Chang, Pai-Jung; Tang, Yue-Kai; Lai, Wei-Han; Chiang, Anthony Shiaw-Tseh; Liu, C.Y.*, (2019), Fabrication of Aluminum Nitride Thermal Substrate and Low-Temperature Die-Bonding Process for High Power LED. Journal of Electronic Materials, 48(1),194-200.
  3. Wang, S.-H.; Liu, J.-H.; Chung, P.-T.; Chiang, A. S. T.; Wu, A. T.-C.; Liu, Y.-L.; Wu, K.-Y.; Chang, S.-J., (2018),  Zirconia/Acrylate Nanocomposite Hard-Coat. Recent Innovations in Chemical Engineering, 11 (3), 160-171.
  4. Yang, Bo-Xuan; Chien, Yu-Hsin Chang; Chang, Ting; Liao, Ching-Han; Liu, Cheng-Yi; Chiang, Anthony Shiaw-Tseh; Liu, Cheng-Liang*, Fully Solution-Processed Low-Voltage Driven Transparent Oxide Thin Film Transistors. physica status solidi (a) 2018, 215 (24), 1800192.
  5. Jiang Bo-Yi, Vegiraju Sureshraju, Chiang A. S. T., Chen Ming-Chou Mike, Liu Cheng-Liang*, (2017) , Low-voltage-driven organic phototransistors based on a solution-processed organic semiconductor channel and high k hybrid gate dielectric, J. Mater. Chem. C, 5(38): 9838-9842.
  6. Chung P.T., Chiou S.H., Tseng C.Y., Chiang A.S.T.*, (2016), Preparation and Evaluation of a Zirconia/Oligosiloxane Nanocomposite for LED Encapsulation, ACS Appl. Mater. Interf., 8, 9986-9993.
  7. Huang Lin-Yi, HaoYuan-Chung, ChangJean WenChyuan, Wang Mei-Jhu, Chiang A.S.T., TsaiTseng-Chang*, (2015), Growth of MFI zeolite film as corrosion protection layer of aluminum alloy, Micropor. Mesopor. Mater. 217, 71-80.
  8. Yang Bo-Xuan,   Tseng Chih-Yao,  Chiang A.S.T.*,  Liu Cheng-Liang*, (2015),  A sol–gel titanium–silicon oxide/organic hybrid dielectric for low-voltage organic thin film transistors, J. Mater. Chem. C, 3(5), 968-972..
  9. Chiang A.S.T., (2014), The Production of Dispersible Zirconia Nanocrystals: A Recent Patent Review, J. Recent Innovations Chem. Eng., 7 (2),76-95.
  10. Rosilda Selvin, Chiang A.S.T., (2014), Some Observations on the Synthesis of Fully-Dispersible Nanocrystalline Zeolite ZSM-5, J. Nonsci. Nanotechnol., 11, 7351-7359.
  11.  Huang C.J., Wang L.C., Liu C. Y., Chiang A.S.T., Chang Y. C., (2014), Natural zwitterionic organosulfurs as surface ligands for antifouling and responsive properties, Biointerphases, 9, 029010.
  12. Wang S.H.,  Liu J.H., Pai C.T., Chen C.W., Chung P.T., Chiang A.S.T.*, Chang, S.J., (2013), Hansen solubility parameter analysis on the dispersion of zirconia nanocrystals, J. Colloid & Interface Sci. 407, 140-147
  13. Chang J.W.C, Chiang A.S.T., Tsai, T.C.*,(2013), Anti-Corrosion Zeolite Film by the Dry-Gel-Conversion Process,Thin Solid Film, 529(1),327-332.
  14. Chiang A.S.T., (2012), Special Issue: Adsorption for Energy and Environment Preface, Adsorption, 18(5-6), 327-328.
  15. Chung P.T., Yang C.T., Wang S.H., Chen C.W., Chiang A.S.T.*, Liu C.Y., (2012), ZrO2/Epoxy nanocomposite for LED encapsulation, Mater. Chem. Phys., 136(2-3), 868-876.
  16. Chen C-H, Li S-Y, Chiang A.S.T.*, Wu A.T., Sun Y-S., (2011), Scratch-resistant zeolite anti-reflective coating on glass for solar applications, Sol.Energy Mater.Sol.Cells, 95 (7), 1694-1700.
  17. Wu J-S, Chiang A.S.T.*,  Tsai T-C, (2011), Some Observations on the Synthesis of Colloidal Beta Zeolite from a Clear Precursor Sol, Sci. Adv. Mater., 3, 1-8.
  18. Wang S-H, SunY-S*, Chiang A.S.T., Hung H-F, Chen M-C, Wood K., (2011), Carboxylic Acid-Directed Clustering and Dispersion of ZrO2 Nanoparticles in Organic Solvents: A Study by Small-Angle X-ray/Neutron Scattering and NMR  J. Phy. Chem. C, 115(24),11941-11950.
  19. Chiu P-J, Vetrivel S., Chiang A.S.T., Kao, H-M*, (2011), Synthesis and characterization of cubic periodic mesoporousorganosilicas with a high loading of disulfide groups, New J. Chem., 35, 489–494.
  20. Fang S-Y, Chiang A.S.T.*,  Kao H-M, (2010), Increasing the Productivity of Colloidal Zeolite Beta by Posthydrolysis Evaporation, Ind. Eng. Chem. Res, 49(23), 12191-12196.
  21. Palani A., Wu H.Y., Ting C.C., Vetrivel S., Shanmugapriya K., Chiang A.S.T., Kao H.M.*, (2010), Rapid temperature-assisted sonochemical synthesis of mesoporous silica SBA-15, Micropor. Mesopor. Mater., 131[1-3], 385-392.
  22. Chiang A.S.T*., Fun S. Y., Wu J. S., Tsai T-C, (2010), IR and XRD amorphous synthesis residue showing zeolitic micropores, MRS Symp. Ser. 1217, Y03-01.
  23. Wu C. S., Liao J. Y., Fang S. Y., Chiang A.S.T.*, (2010), Flexible and transparent moisture getter film containing zeolite, Adsorption, 16(1), 69-74.
  24. Tsai Chung-Ta, Pan Yu-Chi, Ting Chun-Chiang, Vetrivel S., Chiang A.S.T., Fey G.T.K., Kao Hsien-Ming, (2009), A simple one-pot route to mesoporous silicas SBA-15 functionalized with exceptionally high loadings of pendant carboxylic acid groups, Chem. Comm., 33, 5018-5020.
  25. Chen Chien-Wei, Yang Xiu-Sheng, Chiang A.S.T.*, (2009), An aqueous process for the production of fully dispersible t-ZrO2 nanocrystals, J. The Taiwan Inst. Chem. Eng., 40(3), 296-301.
  26. Ting C.C., Wu H.Y., Palani A., Chiang A.S.T., Kao H.M*., (2008), Facile synthesis and morphology control of highly ordered cubic mesoporous silica SBA-1 using short chain dodecyltrimethylammonium chloride as the structure-directing agent, Micropor. Mesopor. Mater., 116[1-3], 323-329.
  27. Kao H.M*., Liao C.H., Hung T.T., Pan Y.C., Chiang A.S.T., (2008), Direct synthesis and solid-state NMR characterization of cubic mesoporous silica SBA-1 functionalized with phenyl groups, Chem. Mater. 20[6], 2412-2422.
  28. Chiang A.S.T.*, Wong L.J., Li S.Y., Cheng S.L., LeeC.C., Chen K.L., Chen S.M., Lee Y.J., (2007), Zeolite Anti-reflection coating for Transparent substrates, Stud.Surf.Sci.Catal., 170, 1583.
  29. Sakthivel A., Pedro F.M., Chiang A.S.T., Kuhn F.E.*, (2007), Grafting of cyclopentadienyl ruthenium complexes on aminosilane linker modified mesoporous SBA-15 silicates. Dalton Transactions, 3, 320-326.
  30. Shu G., Liu J.M., Chiang A.S.T.*, Thompson R.W., (2006), Transparent zeolite film with regular surface patterns. Adv. Mater., 8,185-189.
  31. Fey G.T.K.*, Lu C.Z., Kumar T.P., Muralidharan P, Chiang A.S.T., (2006), Mechano-thermal nanoparticulate coatings for enhancing the cycle stability of LiCoO2. J. Phy. Chem. Solids, 67[11], 2337-2344.
  32. Chiu C.Y., Chiang A.S.T., Chao K.J.*, (2006), Mesoporous silica powders and films--Pore size characterization by krypton adsorption. Micropor.Mesopor.Mater., 91[1-3], 244-253.
  33. Sakthivel A., Pedro F. E., Chiang A.S.T., Kuhn F.E.*, (2006), Heterogenization of (eta 5-C5Me5)Ru(PPh3)(2)Cl and its catalytic application for cyclopropanation of styrene using ethyl diazoacetate. Synthesis-Stuttgart, [10], 1682-1688.
  34. Sakthivel A., Abrantes M., Chiang A.S.T,, Kuhn F.E.*, (2006), Grafting of ETA(5)-Cp(COOMe)MoCl(CO)(3) on the surface of mesoporous MCM-41 and MCM-48 materials. J.Organomet.Chem., 691[5], 1007-1011.
  35. Sakthivel A., Sun W., Raudaschl-Sieber G., Chiang A.S.T., Hanzlik M., Kuhn* F.E., (2006), Grafting of a tetrahydro-salen copper(II) complex on surface modified mesoporous materials and its catalytic behaviour. Catalysis Communications, 7[5], 302-307. 
  36. Kao H.M.*, Chang P.C., Wu J.D., Chiang A.S.T., Lee C.H., (2006), Direct synthesis, characterization and solid-state NMR spectroscopy of large-pore vinyl-functionalized cubic mesoporous silica FDU-12. Micropor. Mesopor.Mater., 97[1-3], 9-20.
  37. Kao H.M*., Wu J.D., Chen C.C., Chiang A.S.T.(2006), Direct synthesis of vinyl-functionalized cubic mesoporous silica SBA-1, Micropor.Mesopor.Mater. , 88, 319-328.
  38. Sarangapani P.S., Neal N.T.H., Knott M.R., Thompson R.W.*, Chiang A.S.T., (2006), Harvesting and Manipulating Zeolite Nanocrystals. Adsorp. Sci. Technol., 45, 2096-2104.
  39. Kao H.M*., Wu H.M., Liao Y.W., Chiang A.S.T., (2005), Aluminosilicate MCM-48 mesostructures assembled from dried zeolite precursors and Gemini surfactant. Micropor.Mesopor.Mater., 86,256-267.
  40. Hsu C.Y., Chiang A.S.T.*, Salvia R., Thompson R.W., (2005),. Rapid synthesis of MFI zeolite nanocrystals. J.Phys.Chem.B, 109, 18804-18814.
  41. Naik S.P., Chiang A.S.T., Sasakura H., Yamaguchi Y., Okubo T.*, (2005), Fabrication of Hierarchical Zeolitic Material from Zeolite Nanoprecursors and Macromolecular Template. Chemistry Letter, 34, 982-983.
  42. Sakithivel A., Hijazi A. K., Hanzlik M., Chiang A.S.T., Kuhn F.E*., (2005), Heterogenization of [Cu(NCCH3)6][B(C6F5)4]2 and its application in catalytic olefin aziridination. Applied Catalysis A-General, 294, 161-167.
  43. Sakthivel A., Zhao J., Hanzlik M., Chiang A.S.T., Herrmann W.A., Kühn F.E.*, (2005), “Heterogenization of organometallic molybdenum complexes  with siloxane functional groups and their catalytic application”, Advanced Synthesis & Catalysis, 347[2-3], 473-483.
  44. Kao H.M.*, Ting C.C., Chiang A.S.T., Teng C.C., Chen C.H., (2005),  Facile synthesis of stable cubic mesoporous silica SBA-1 over a broad temperature range with the aid of D-fructose. Chemical Communications, [8], 1058-1060.
  45. Sakthivel A., Zhao J., Raudaschl-Sieber G., Hanzlik M., Chiang A.S.T., Kühn F.E.*, (2005), “Heterogenization of chiral molybdenum(VI) dioxo complexes on mesoporous materials and their application in catalysis”, Applied Catalysis A-General, 281[1-2], 267-273.
  46. Sakthivel A., Huang S.J., Chen W.H., Lan Z.H., Chen K.H., Kim T.W., Ryoo R., Chiang A.S.T., Liu S.B.*, (2004), “Replication of Mesoporous Aluminosilicate Molecular Sieves (RMMs) with Zeolite Framework from Mesoporous Carbons (CMKs)”, Chem. Mater., 16, 31168-31175.
  47. Fey G.T.K.*, Weng Z.X., Chen J.G., Lu C.Z., Kumar T.P., Naik S.P., Chiang A.S.T., Lee D.C.,  Lin J.R., (2004), “Preformed boehmite nanoparticles as coating materials for long-cycling LiCoO2”, J. Apply. ElectroChem., 34, 715-722.
  48. Fey G.T.K.*, Yang H.Z., Kumar T.P., Naik S.P., Chiang A.S.T., Lee D.C., Lin J.R., (2004), “A simple mechano-thermal coating process for improved lithium battery cathode materials”, J. Power source, 132, 172-180.
  49. Chao K., J.*, Ping H., Chiu C., Chiang A.S.T., (2004), Pore size analysis of mesoporous films by krypton adsorption. Stud.Surf.Sci.Catal., 154, 1363-1368.
  50. Sakithivel A., Huang S., Chen W., Kim T., Ryoo R., Chiang A.S.T., Chen K., Liu S.B.*, (2004), Preparation of ordered mesoporous aluminosilicate using carbon mesoporous materials as template. Stud.Surf.Sci.Catal., 154, 394-399.
  51. 林錕松*蔣孝澈,莊添登,劉承書,(2004), 奈米磁性氧化鐵微粒表面改質及其應用研究,界面學會會誌26[3], 139-150.
  52. Naik S.P., Chiang A.S.T.*, Thompson R.W., Huang F.C., (2003), Formation of silicalite-1 hollow spheres by self-assembly of nanocrystals, Chem. Mater., 15(3), 787-792.
  53. Naik S.P., Chiang A.S.T.*, Thompson R.W., Huang F. C. and Kao H.M., .(2003), Mesoporous silica with short-range MFI structure, Micropor. Mesopor. Mater ,60 (1-3),213-224.
  54. Naik S. P., Chiang A.S.T.*, Thompson R.W., (2003), Synthesis of Zeolitic Mesoporous Materials by Dry Gel Conversion under Controlled Humidity, J. Phys. Chem. B.,  107(29) 7006-7014.
  55. Rosilda S., 賴平昇, 楊靜屏, 董志偉, 蔣孝澈*, (2003),奈米氧化鋁表面改質之定性研究, 界面學會會誌, 25(1), 53-58.
  56. Naik S.P.,  Chen J.C., Chiang A.S.T.*, (2002), Synthesis of silicalite nanocrystals via the steaming of surfactant protected precursors, Micropor. Mesopor. Mat., 54, 293-303.
  57. Chen K.L., Chiang A.S.T.*, Tsao H.K., (2001), Preparation of zirconia nanocrystals form concentrated zirconium solution, J. Nanoparticle Res., 3, 119-126.
  58. Chiang A.S.T.*,  Chao Kuei-jung, (2001),  Membranes and Films of Zeolite and Zeolite-like Materials, J. Phys.Chem. Solids, 62, 1899-1910.
  59. Tsay C.S.. Chiang A.S.T.*, (2000), Supported zeolite membrane by vapor phase regrowth, AIChE J., 46(3), 616-625.
  60. Chen S.S., Chen Y.W., Chiang A.S.T.*, (2000), mesoporous Silica with local D5R structure, Proc. Of Pacific Basen Conf. On Ads. Sci & Tech., Ed. D.D. Do, pp130-135, World Scientific Inc., Australia. (ISBN 981-02-4263-8).
  61. 陳姿秀,蔣孝澈,陳暉* (2000), 同時聚合下製備具苯乙烯/矽膠高分子混成體, (Synthesis of polystyrene/silica gel polymer hybrids by in-situ polymerization method), 化學58(2), 229-236.
  62. Narkiewicz-Michaek J., Szabelski P., Rudzinski W.*, Chiang A.S.T., (1999), Heterogeneous Three-Site Lattice Model for Adsorption of Aromatics in ZSM-5 Zeolites: Temperature Dependence of Adsorption Isotherms, Langmuir, 18, 6091-6102.239.
  63. Chiang A.S.T.*, (1998), Complete separation conditions for a local equilibrium TCC adsorption nunit,   AIChE J. , 44(2), 332-340.
  64. Chiang A.S.T.*, (1998), A continuous chromatographic process based on SMB technology, AIChE J., 44 (8), 1930-1932.
  65. Chiang A.S.T.*, (1998), On the equilibrium theory for Simulated Moving bed adsorption processes, AIChE J., 44(11), 2413-2441.
  66. Tsay C.S., Chiang A.S.T.*, (1998), The synthesis of colloidal zeolite TPA/silicalite-1, Micropor. Mesopor. Mater., 26, 89-99.
  67. Chiang A.S.T.*, (1998), Countercurrent Adsorption separation with binary desorbent, in Fund. of Adsorp. 6th Ed. F. Meunier, Elsevier, p 431. (ISBN 2-84299-053-6).
  68. Chiang A.S.T.*, Lee C.K., Rudzinski W., Narkiewica-Michalek J., Szabelski P., (1997), Energy and structure heterogeneities for the adsorption in zeolites, Stud.Surf.Sci.Catal., 104, 519-572. 
  69. Rudzinski W.*, Narkiewicz-Michalek J., Szabelski P., Chiang A.S.T., (1997), Adsorption of aromatics in zeolite ZSM-5- a thermodynamic-calorimetric study based on the model of adsorption on heterogeneous adsorption sites, Langmuir, 13(5), 1095-1103.
  70. Tsay C.S.*, Lee C.K., Chiang A.S.T., (1997), The fractal and percolation analysis of a polymeric Al2O3-gel, Chem. Phys. Lett., 278,  83-90.
  71. Gong S.C, Liu R.G., Chou F.C.*, Chiang A.S.T., (1996), Experimental and simulation of the recirculation flow in a CVD reactor for monolithic materails, Experimental Thermal and Fluid Sci., 12(1), 1245-51.
  72. Chiang A.S.T.*, (1996), An analytical solution to equilibrium PSA cycles, Chem. Engng. Sci., 51(2), 207-216.
  73. Chiang A.S.T.*,  Wu F.Y., Lee C.K., (1996), Adsorbed solution theroy - A One-dimensional analysis, in Fundamental of Adsorption, 5th, M.D. LeVan Ed., Kluwer Academic Pub., Boston, MA, p163-170. (ISBN 0-7923-9713-4.)
  74. Lee C.K., Chiang A.S.T.*, Tsay C.S., (1996), The Characterization of porous solids from gas adsorption measurements, Key Engineering Materials, 115, 21-44.
  75. Chiang A.S.T.*, Lee C.K., Wu F.Y., (1996), Theory of Adosrbed solutions: analysis of one-dimensional systems, AIChE J., 42(8), 2155-2161.
  76. Lee C.K., Chiang A.S.T.*, (1996), Adsorption of aromatics in large MFI zeolite crystals, J. Chem. Soc., Faraday Trans., 92(18), 3445-3451.
  77. Chiang A.S.T.*, Hong M.C., (1995), Radial Flow Rapid Pressure Swing Adsorption,  Adsorption, 1, 153-164.
  78. Chou C.T.*, Liu R.G., Tsai J.K., Chiang A.S.T., (1995), Confined Coaxial Jet flows into a cold model of CVD Chamber, Chem. Engng. Comm., 135, 213-227.
  79. Tsay C.S., Hsieh C.W., Chiang A.S.T., (1995), Preparation of Alumina Aluminum Borate solgel for high temperature ceramic membrane applications, Proc. of 3rd Inter. Conf. Inorganic Membranes, Ed. Y.H. Ma, p589-594.
  80. Chou C.T., Wu C..L., Chiang A.S.T.*, (1994), A Complementry PSA process configuration for air separation, Sep. Technol., 4, 1-11.
  81. Chiang A.S.T.*, Chung Y.L., Chen C.W., Hung T.H., Lee T.Y., (1994), An Experimental Study On A Four Bed PSA Air Separation Process, AIChE J., 40(12), 1976-1982.
  82. Hwang B.J.*, Shieh D.T., Chiang A.S.T., (1994), Morphology, Structure and electrochemical activity of Ru-Ti binary oxide electrodes synthesized by the solgel method, J. ChIChE, 25(2), 127-137.
  83. Lee L.S.*, Huang J.F., Yang W.Y., Chiang A.S.T., (1994), Vapor-liquid equilibrium measurements and data analysis of isoprene and n-pentane mixture, Fluid Phase Equilibria, 102, 257-273.
  84. Chiang A.S.T.*, Lin K.S., Fun L.Y., (1993), Adsorption of  Multicomponent Aromatics on Y-zeolite and silicalite, in Fundamentals of Adsorption 4th , Ed. M. Suzuki, Pub. Kodansha, Tokyo, p81-88.
  85. Lin K.S, Fun L.Y., Chiang A.S.T.*, (1993), Adsorption equilibria of xylene in Ba, Sr Exchanged Y-zeolite, J. ChIChE.,  24(5), 277-288.
  86. Chiang A.S.T.*, (1992), Design of a Pressure Swing Adsorption Simulator, J. ChIChE., 23,   133-138.
  87. Lee C.K., Chiang A.S.T.*, Wu F.Y., (1992), Lattice Model for the Adsorption of Benzene in Silicalite I, AIChE J., 38, 128-135.
  88. Hwang W.J., Chou C.T.*, Chiang A.S.T., (1992), Simulation of a Dual bed PSA Oxygen Process, J. ChIChE., 23, 45-52.
  89. Hsieh Chih-Wen, Chiang A.S.T.*, Lee Cheng-Chung, Yang Sheng-Jenn, (1992), Preparation of TiO2-B2O3 Coating by the Sol-Gel Method, J.  Non-Crystalline Solids, 144, 53-62.
  90. Hsieh Chih-Wen, Chiang A.S.T.*, Lee Cheng-Chung, Tu Shun-Lih, (1992), Multiple Coating of TiO2-B2O3 Solgel on Glass, Mater. Res. Bull., 27, 715-722.
  91. Chiang A.S.T.*, Lee C.K., Chang Z.H., (1991), Adsorption and Diffusion of Hydrocarbons in Aluminophosphate Moecular  Sieve APO4-5, Zeolites, 11, 380-386.
  92. Tan C.S.*, Liao C.L., Chiang A.S.T., (1991), Separation of diethylbenzene in the presence of high pressure CO2 and propane, Ads. Sci. Tech., 8(4), 226-234.
  93. Chiang A.S.T.*, Lin Z.C., Lee M.L., (1990), Chromatographic Separation of Xylene with silicalite" in Fund. of Ads. 3rd , Ed. A.B. Mersmann, p199-210, AIChE, New York. ISBN 0-8169-0540-1.
  94. Chiang A.S.T.*, Hwang G. W., (1989), Simulation of Breakthrough Curves by a Moving zone Collocation Method, Computers & Chem. Engng., 13, 281-290.
  95. Lee M. L., Chiang A.S.T.*, (1989), Adsorption of Binary Aromatic Solutions on Silicalite, J. ChIChE, 20, 113-118.
  96. Chiang A.S.T.*, Hwong M.Y., Lee T.Y., Cheng T.W., (1988), Oxygen Enrichment by Pressure Swing Adsorption, Ind. Eng. Chem. Res., 27(1), 81-85.
  97. Chiang A.S.T.*, (1988) "Arithmetic of PSA Process Scheduling", AIChE J., 34, 1910- 1912.
  98. Chiang A.S.T.*, Yang Y.J., (1987) "Adsorption of Aqueous Alcohol on Silicalite:", J. ChIChE., 18(2), 63-67.
  99. Hsiao C.M., Fann D.M., Chiang, A.S.T.,I, Y., (1987), Removal of the corrosive hydrogen sulfide pollutant from the intake air for a controlled environment, Key Engineering Mate., 20-28, 1-4.
  100. 陳郁文*,楊思明,蔣孝澈, (1987), 磷酸鋁觸媒之硝基苯氫化反應, 化學, 45(1), 1-9.
  101. Chiang A.S.T.*, Thompson R.W., (1986), Dynamics of Populations Subjected to Selective Harvest: Uniqueness,  Stability and Periodic behavior, J. ChIChE., 17(5), 295-302.
  102. Sacco A.*, Chang T.N., Chiang A.S.T., Thacker P., (1984), The Initiation and Growth of Filamentous Carbon from Iron in H2 ,CH4 ,H2O, CO2 and CO Gas Mixture,  J. Catal., 85, 224-236.
  103. Chiang A.S.T.*, Ma Y.H., Dixon A.G., (1984), The Determination of Zeolite Crystal    Diffusivity by Gas Chromatography-(I): Theoretical, Chem. Eng. Sci., 39(10), 1451-1459.
  104. Chiang A.S.T.*, Ma Y.H., Dixon A.G., (1984), The Determination of Zeolite Crystal Diffusivity by Gas Chromatography-(II): Experimental, Chem. Eng. Sci., 39(10), 1461-1468.
  105. Chiang A.S.T., Thompson R.W.*, (1981), The Age Distribution from Continuous Biochemical Reactors with Cell Reproduction by Mitosis, J. Theor. Biol., 89, 321-333.
  106. Thompson R.W.*, Chiang A.S.T., (1980), The Age Distribution from Continuous Self-seeded Particulate System, Chem. Eng. Commun., 4, 737-747.
  107. Chiang A.S.T.,  Thompson R.W.*, (1979), Stability of Continuous Emulsion Polymer Reactor, J. Apply. Polymer Sci., 24, 1935-1955.
  108. Chiang A.S.T., Thompson R.W.*, (1979), Modeling the Transient Behavior of Continuous Emulsion Polymer Reactors, AIChE J. , 25(3), 552-554.


 研究計畫
奈米物質可以有許多應用,但是一定要有簡單便宜的大量生產方法才可能實現。化學法是最有可能大量製造,並且控制奈米材料形貌、結構及分散性的方法。譬如酸鹼中和常會生成大顆粒沉澱。假若能適當控制,使形成大顆粒前之奈米核種可以保持獨立,即可簡單大量製造奈米顆粒。然後可以由界面劑、高分子等,使其依照需要形成二次結構甚至三次結構。尤其是將小於100奈米之各種粒子改質後做成功能性塗料。可以以最少年材料產生最大功效。

  1. 發展出大量製作奈米氧化鈦、氧化鋯、鈦酸鋇、氧化鋅、沸石等方法,並大半獲得國內外專利且轉移業界生產。
  2. 利用前述奈米物質發展出硬鍍膜、抗反射膜、光觸媒膜、無機透膜等應用,及各種奈米材料與樹酯混成的技術。

Current researches:

zirconia/polymer transparent nanocomposite

 專利

(ROC)

  1. 蔡振章、黃琳意、蒿元中、蔣孝澈,高方向性抗腐蝕沸石膜之製備方法  。申請人: 國立高雄大學,專利號: I5528792016/10/1/11
  2. 蔣孝澈、王藪勳、白謹通、陳建偉,金屬氧化物奈米顆粒材料    。申請人:國立中央大學,專利號:I5439382016/08/01
  3. 廖鎔榆,劉佩青,曾美榕,蔣孝澈,方順一,吳建昇,透明吸收塗層。 申請人:工業技術研究院 , 國立中央大學,專利號:I437058,2014/05/11
  4. 劉正毓,張祐銜,蔣孝澈,具磊晶強化層之覆晶發光二極體及其製造方法。 申請人: 國立中央大學 ,專利號:I371120,2012/08/21
  5. 劉文泉、黃建國、蔣孝澈,不降低透明基材可見光和日光穿透率之透明水基奈米溶膠凝膠塗料組成物及其塗布方法,申請人: 泉耀科技股份有限公司,專利號:I3423252011/05/21
  6. 蔣孝澈、陳世明、李永安,硬質抗反射透明沸石層及其製造方法、可產生透明沸石層之溶液,申請人:工業技術研究院 , 國立中央大學,中華民國專利 I292340 (2008/01/11).

  7. 林有銘、朱秦億、周力行、劉淑鈴、蔣孝澈,觸媒無機膜及其應用,中華民國專利I286492 (2007)。
  8. 蔣孝澈、徐志宗、楊靜屏,一種毫微米氧化鋅結晶溶膠製備方法,中華民國專利 I257918 (2006)。
  9. 蔣孝澈、楊脩生、陳建偉,氧化鋯溶膠及其製法,中華民國專利 I252215 (2006)
  10. 吳汝瑜、王震綱、蔣孝澈,奈米粒子表面改質方法,改質奈米氧化物粒子及其應用,中華民國專利 I227719. (2005)。
  11. 蔣孝澈、許哲豪、劉家銘、羅希達,透明沸石膜製作方法及其結構,中華民國專利 I240648 (2005)。
  12. 蔣孝澈、陳鏡全、史派克奈克,一種超細微沸石結晶之製造方法,中華民國專利 553899 (2003)
  13. 蔣孝澈、 洪牧群,藉快速變壓吸附分離氣體混合物的改良方法,中華民國專利239028. (1995)
  14. 談駿嵩,蔣孝澈,從二乙基苯異構物混合物中分離出對二乙基苯之方法,中華民國專利239122. (1995)
  15. 蔣孝澈 、 黎孝儀. 一種可塗佈低折射率抗反射膜之混合塗料. TW 097105673. (2008)

(International)

  1. Chiang, A. S.-T.; Wang, S.-H.; Pai, C.-T.; Chen, C.-W. Metal oxide nanoparticle material. US patent 14/948590 (10,106,433B2), Oct. 23, 2018.
  2. Tsai, T.-C.; Tsai, S.-T.; Huang, L.-Y.; Hao, Y.-C.; Chiang, S.-T., Method for Fabricating Oriented Zeolite Film. US patent 15/043319 (9,822,011), Nov. 21, 2017.
  3. Chiang, A.S.T., Chen, Shih-Ming, Lee, and Young-Jen. “Antireflective transparent zeolite hardcoat, method for fabricating the same”, Assignee: ITRI, NCU,. US Patent 12/081468(8,287,947) Oct.16, 2012
  4. Liu, Wen-Chuan, Huang, Chien-Kuo, Chiang, A.S.T.. “Transparent Aqua-Based Nano Sol-Gel Composition and Method Of Applying The Same”. Assignee: ONID Technology, US Patent 12/267025 (8,158,546). 2012
  5. Chiang, A.S.T., Li, Shiao-Yi. “Coating Composition for Low-Refractive Index Anti-Reflection Film”. Assignee: NCU. US Patent 12/388613 (8,157,907). 2012.
  6. Liu, Wen-Chuan, Huang, Chien-Kuo, Chiang, A.S.T., “Transparent aqua-based nano sol-gel composition and method of applying the same”. Assignee: ONID Technology, GB patent 2,454,774B, 2010.
  7. Chiang, Anthony Shiaw-Tseh, Chen, Shih-Ming, Lee, and Young-Jen. Antireflective transparent zeolite hardcoat, method for fabricating the same. Assignee: ITRI & NCU, US Patent 12/081466 (7,534,416). 2009
  8. Chiang,A.S.T., Hsu,Z., and Yang,J. Preparation method for nanometer grade zinc oxide crystalline (zincite) sol. Assignee: Headway Advanced Materials Co., Ltd. US Patent 11/237,792 (7,528,177). 2009.
  9. Chiang A.S.T., Yang X.S., Chen C.W., Zirconia sol and method for preparing the same, US patent 7,393,518 (2008).
  10. Chiang, A.S.T., Chen Shih-Ming, Lee Young-Jen, "Antireflective transparent zeolite hardcoat, method for fabricating the same",  US patent 7,381,461 (2008).
  11. Chiang A.S.T., Shu Gorden, Liu Jaming, Selvin Rosilda, Method for making transparent continuous zeolite film and structure of the zeolite film, US patent 7,253,130 (2007).
  12. Chaing A.S.T., Chen C.C., Naik S.P., A process for the production of ultra-fine zeolite crystals and their aggregates, US patent 6,746,660 (2004).
  13. Tan, C.S., Chiang, A.S.T., Separation of diethylbenzene isomers on silicalite in the presence of high pressure carbon dioxide and propane, US patent 5,336,837 (1994).