Amama, P. B., Lim, S., Ciuparu, D., Pfefferle, L. and Haller, G. L., 2005.
“Hydrothermal Synthesis of MCM-41 Using Different Ratios of Colloidal and Soluble Silica”. Micropor. Mesopor Mater. 81(1-3): 191.
Anderson, M. T., Martin, J. E., Odinek, J. G. and Newcomer, P. P., 1998.
“Surfactant-templated Silica Mesophases Formed in Water: Cosolvent Mixtures”. Chem. Mater. 10(1): 311.
Baute, D., Zimmermann, H., Kababya, S., Vega, S. and Goldfarb, D., 2005.
“Synthesis of MCM-41 with a Phosphonium Template”. Chem. Mater.
17(14): 3723.
Beck, J. S., Vartuli, J. C., Roth, W. J., Leonowicz, M. E., Kresge, C. T., Schmitt, K. D., Chu, C. T. W.,Olsen, D. H., Sheppard, E. W., McCellen, S. B., Higgins, J. B. and Schlenker, J. L., 1992. “A New Family of Mesoporous Molecular Sieve Prepared with Liquid Crystal Templates”. J. Am. Chem.
Soc. 114(27): 10835.
Branton, P. J. and Reynolds, P. A., 1999. “Adsortion of Carbon Terachloride by 3.4 nm Pore Diameter Siliceous MCM-41: isotherms and neutron diffraction”. Adsorption 5(13): 91.
Chen, L., Horiuchi, T., Mori, T. and Maeda, K., 1999. “Postsynthesis Hydrothermal Restructuring of M41S Mesoporous Molecular Sieves in Water”. J. Phys. Chem B. 103(8): 1216.
Chen, H. and Wang, Y., 2002. “Preparation of MCM-41 with High Thermal Stability and Complementary Textural Porosity”. Ceram.
Int
.28(5): 541.Chen, X., Huang, L., and Li, Q., 1997. “Hydrothermal Transformation and Characterization of Porous Silica Templated by Surfactants”. J. Phys.
Chem. B. 101(42): 8460.
Choma, J., Pikus, S. and Jaroniec, M., 2005. “Adsorption Characterization of Surfactant-templated Ordered Mesoporous Silicas Synthesized with and without Hydrothermal Treatment”. Appl. Surf. Sci. 252(3): 562.
Choudhary, V. R. and Mantri, K., 2000. “Adsorption of Aromatic Hydrocarbons on Highly Siliceous MCM-41”. Langmuir 16(17): 703.
Davis, M. E. and Burkett, S. L., 1995. “Towards the Rational Design and Synthesis of Microporous and Mesoporous Silica-Containing Materials”.
Zeolite 12(2): 33.
Fan, H., Swol, F. V., Lu, Y. and Brinker, J., 2001. “Multiphased Assembly of Nanoporous Silica Particles”. J. Non-Cryst. Solids. 285(1-3): 71.
Firouzi, A.; Kumar, D.; Bull, L. M.; Besier, T.; Sieger, P.; Huo, Q.; Walker, S. A.;
Zasadzinski, J. A.; Glinka, C.; Nicol, J.; Margolesse, D.; Stucky, G. D.;
Chmelka, B. F., 1995. “Cooperative Organization of Inorganic-surfactant and Biomimetic Assemblies”. Science 267(5201): 1138.
Gaydhankar, T. R., Samuel, V. and Joshi, P. N., 2006. “Hydrothermal Synthesis of MCM-41 using Differently Manufactured Amorphous Dioxosilicon sources”. Mater.Letters 60(7): 957.
Chen, H. and Wang, Y. 2002. “Preparation of MCM-41 with High Hhermal Htability and Complementary Textural Porosity”. Ceram. Int. 28(5): 541.
Grüm, M., Unger, K. K., Matsumoto. A., Tsutsumi, K., 1999. “Novel Pathways for the Preparation of Mesoporous MCM-41 Materials: control of porosity and morphology”. Micropor. Mesopor. Mater. 27(2-3): 207.
Igarashi, N., Koyano, K. A., Tanaka, Y., Nakata, S., Hashimoto, K. and Tatsumi, T., 2003. “Investigation of the factors influencing the structural stability of mesoporous silica molecular sieves”. Micropor. Mesopor. Mater. 59(1): 43.
Inagaki, S., Ogura, M., Inami, T., Sasaki, Y., Kikuchi, E., Matsukata, M., 2004.
“Synthesis of MCM-41-type Mesoporous Materials Using Filtrate of Alkaline Dissolution of ZSM-5 Zeolite”. Micropor. Mesopor. Mater.
74(1-3): 163.
Khan, F. I. and Ghoshal, A. Kr., 2000. “Removal of Volatile Organic Compounds from polluted air”. J. Loss Prevent Proc. 13(6): 527.
Lee, J. W., Shim, W. G. and Moon, H., 2004. “Adsorption Equilibrium and Kinetics for Capillary Condensation of Trichloroethylene on MCM-41 and MCM-48”. Micropor. Mesopor. Mat. 73(3): 109.
Léonard, A., Blin, J. L., Robert, M., Jacobs, P. A., Cheetham, A. K. and Su, B.
L., 2003. “Toward a Better Control of Internal Structure and External Morphology of Mesoporous Silicas Synthesized Using a Nonionic Surfactant”. Langmuir, 19(13): 5484.
Liang, Y., Hanzlikb, M. and Anwander, R., 2006. “Periodic Mesoporous
Organosilicas: Mesophase Control via Binary Surfactant Mixtures”. J.
Mater. Chem. 16(13): 1238.
Lin, H. P., Cheng, Y. R., Liu, S. B. and Mou, C. Y., 1999. “The Effect of Alkan-1-ols Addition on the Structural Ordering and Morphology of Mesoporous Silicate MCM-41”. J. Mater. Chem.9(5): 1197.
Lin, H. P., Kao, C. P. and Mou, C. Y., 2001. “Counterion and Alcohol Effect in the Formation Mesoporous Silica”. Microporous Mesoporous Mater.
48(1-3): 135.
Lin, H. P., Mou, C. Y., Liu, S. B., Tang, C. Y. and Lin, C. Y., 2001.
“Post-synthesis Treatment of Acid-made Mesoporous Silica Materials by Ammonia Hydrothermal Process”. Micropor. Mesopor. Mater. 44-45: 129.
Lin, H. P. and Mou, C. Y., 2002. “Salt Effect in Post-synthesis Hydrothermal Treatment of MCM-41” Micropor. Mesopor. Mater. 55(1): 69.
Liu, S., Cool, P., Collart, O., Voort, P. V. D., Vanaant, E. F., Lebedev, O. I.,
Tendeloo, G. V. and Jiang, M., 2003. “The Influence of Alcohol Concentration the Structural Ordering of Mesoporous Siloica: cosurfactant versus cosolvent”. J. Phys. Chem. B. 107(38): 10405.
Liu, S., Lu, L., Yang, Z., Cool, P. and Vanasnt, E. F., 2006. “Further Investigations on the Modified Stöber Method for Spherical MCM-41”.
Mater. Chem. Phys. 97(2-3): 203.
Mendonza, A. M., Warzywoda, J. and Sacco, A., 2006. “Investigation of Structural Order and Morphology of MCM-41 Mesoporous Silica Using an Experimental Design Methodology”. J. Porous Mater. 13(1): 37.
Nguyen, C., Sonwane, C. G. Bhatia, S. K. and Do, D. D., 1998. “Adsorption of Benzene and Ethanol on MCM-41 Material”. Langmuir 14(17): 4950.
Øye, G., Sjöblom, J. and Stöacker, M., 2001. “Synthesis, Characterization and Potential Applications of New Materials in the Mesoporous Range”. Adv.
Colloid Interface. 89-90: 439.
Park, S. E., Chang, J. S., Hwang, Y. K., Kim, D. S., Jhung, S. H. and Hwang, J.
S., 2004. “Supramolecular Interactions and Morphology Control in Microwave Synthesis of Nanoporous Materials”. Catal. Surv. Asia. 7(2-3):
121.
Park, S. E., Kim, D. S., Chang, J. S. and Kim, W. Y., 1998. “Synthesis of MCM-41 Using Microwave Heating with Ethylene Glycol”. Catal. Today.
44 (1-4): 301.
Qiao, S. Z., Bhatia, S. K. and Nicholson, D., 2004. “Study of Hexane Adsorption in Nanoporous MCM-41 Silica”. Langmuir. 20(2): 389.
Rao, G. V. R., Lopez, G. P., Bravo, J., Pham, H., Datye, A. K., Xu, H. F., Ward, T.
L., 2002. “Monodisperse Mesoporous Silica Microspheres Formed by Evaporation-induced Self Assembly of Surfactant Templates in Aerosols”.
Adv. Mater. 14(18): 1301.
Run, M., Wu, S. and Wu, G., 2004. “Ultrasonic Synthesis of Mesoporous Molecular Sieve”. Micropor. Mesopor. Mater. 74(1-3): 37.
Sanhueza, V., L ´ opez-Escobar, L., Kelm, U. and Cid, R., 2006. “Synthesis of a Mesoporous Material from Two Natural Sources”. J. Chem. Technol. Biot.
81(4): 614.
Selvam, P., Bhatia, S. K. and Sonwane, C. G., 2001. “Recent Advances in Processing and Characterization of Periodic Mesoporous MCM-41 Silicate Molecular Sieves”. Ind. Eng. Chem. Res. 40(15): 3237.
Serrano, D. P., Calleja, G., Botas, J. A. and Gutierrez, F., 2004. “Adsorption and Hydrophobic Properties of Mesostructured MCM-41 and SBA-15 Materials for Volatile Organic Compound Removal”. Ind. Eng. Chem. Res.
43(22): 7010.
Tan, B. and Rankin, S. E., 2004. “Interfacial Alignment Mechanism of Forming Spherical Silica with Radially Oriented Nanopores”. J. phys. Chem. B.
108(52): 20122.
Trens, P., Tanchoux, N., Maldonado, D., Galarneau, A., Renzo, F. D. and Fajula, F., 2004. “Study of N-hexane Adsorption in MCM-41 mesoporous Materials: a Scaling Effect Approach of Capillary Condensation Processes”.
New J. Chem. 28(7): 874.
Voegtlin, A. C., Matijasic, A., Patarin, J., Sauerland, C., Grillet, Y. and Huve, L.,
1997. “Room-temperature Synthesis of Silicate Mesoporous MCM-41
Type Materials: influence of synthesis pH Porosity of the Materials Obtained”. Microporous Mater. 10(1-3): 137.Webb, P. A. and Orr, C., 1998. “Analytical Methods in Fine Particle Technology”, Micromeritics, USA.
Wu, T. M., Wu, G. R., Kao, H. M. and Wang, J. L., 2006. “Using Mesoporous Silica MCM-41 for in-line Enrichment of Atmospheric Volatile Organic
Compounds”. J. Chromatogr. A. 1105(1-2): 168.
Xia, Y. and Mokaya, R., 2003. “A Study of the Behaviour of Mesoporous silicas in OH/CTABr/H2O Systems: phase dependent stabilisation, dissolution or semipseudomorphic transformation”. J. Mater. Chem. 13(1-3): 3112.
Zana, R., Yiv, S., Strazielle, C. and Lianos, P., 1981. “Effect of Alcohol on the Properties of Micellar System. 1. Critical Micellization Concentration, Micelle Molucular-weight and Ionization, and Solubility of Alcohols in Micellar Solutions”. J. Colloid Interface Sci. 80: 208.
Zhao, X. S., Lu, G. O. and Hu, X., 2001. “Organophilicity of MCM-41 Adsorbents Studied by Adsorption and Temperature-programmed Desorption”. Colloid Surface A. 179(2-3): 261.
Zhao, X. S., Ma. Q. and Lu, G. Q. (MAX), 1998. “VOC Removal: Comparison of MCM-41 with Hydrophobic Zeolites and Activated Carbon”. Energ
Fuel 12(6): 1510.
計畫書」,EPA-91FA12-03-A220。林育旨,2005,「沸石轉輪吸附材改良與結合冷凝器效能提升研究」,交通 大學環境工程研究所博士論文。
孫研,林文勇,庞文琴,霍启升,1995,「中孔分子篩 MCM-41 合成與表 證」,高等學校化學學報,第16 期,1334。
張書豪,張木彬,1999,「科學園區空氣污染排放特性之探討」,國立中央
,第六期,215。
張豐堂,2004,「次世代面板廠揮發性有機氣體淨化設備的特性研究」,國 立清華大學工程與系統科學系博士論文。
陳陵援,1988,「儀器分析」,三民書局,第五版。
曾喬偉,1999,「沸石上吸附性質探討」,國立清華大學化學研究所碩士論 文。
劉密新,羅國安,張新榮,童愛軍,2003,「儀器分析」,清華大學出版社,
第二版。
蘇茂豐,2003,「國內半導體製造業及光電業之產業現況、製程廢棄污染來 源與排放特性」,經濟部環境技術