[1]
|
H. S. Chung, C. S. H. Chen, R. A. Kremer, J. R. Boulton and G. W. Burdette, “Recent Developments in High-Energy Density Liquid Hydrocarbon Fuels,” Energy and Fuels, Vol. 13, No. 3, 1999, pp. 641-649.
doi:10.1021/ef980195k
|
[2]
|
G. Lamoureux and G. Artavia, “Use of the Adamantane Structure in Medicinal Chemistry,” Current Medicinal Chemistry, Vol. 17, No. 26, 2010, pp. 2967-2978.
doi:10.2174/092986710792065027
|
[3]
|
A. Masaaki, G. Akira and M. Shinji, EP Patent 2372799, 2011.
|
[4]
|
E. M. Engler, M. Farcasiu, A. Sevin, J. M. Cense and P. V. R. Schleyer, “Mechanism of Adamantane Rearrange- ments,” Journal of the American Chemical Society, Vol. 95, No. 17, 1973, pp. 5769-5771.
doi:10.1021/ja00798a059
|
[5]
|
“Société des Usines Chimiques Rhǒne-Poluenc,” FR Patent 1431816, 1966.
|
[6]
|
G. A. Olah and O. Farooq, “Chemistry in Superacids. 7. Superacid-Catalyzed Isomerization of Endoto Exo-Trimethylenenorbornane (Tetrahydrodicyclopentadiene) and to Adamantine,” Journal of Organic Chemistry, Vol. 51, No. 26, 1986, pp. 5410-5413. doi:10.1021/jo00376a067
|
[7]
|
M. Y. Huang, J. C. Wu, F. S. Shieu and J. J. Lin, “Isomerization of Exo-Tetrahydrodicyclopentadiene to Adamantane Using an Acidity-Adjustable Chloroaluminate Ionic Liquid,” Catalysis Communications, Vol. 10, No. 13, 2009, pp. 1747-1751.
doi:10.1016/j.catcom.2009.05.030
|
[8]
|
K. Honna, M. Sugimoto, N. Shimizu and K. Kurisaki, “Catalytic Rearrangement of Tetrahydrodicyclotadiene to Adamantine over Y-Zeolite,” Chemistry Letters, Vol. 3, No. 3, 1986, pp. 315-318.
|
[9]
|
M. Navrátilová and K. Sporka, “Synthesis of Adamantane on Commercially Available Zeolitic Catalysts,” Applied Catalysis A: General, Vol. 203, No. 1, 2000, pp. 127-132.
doi:10.1016/S0926-860X(00)00477-4
|
[10]
|
J. H. Clark, K. Martin, A. J. Teasdale and S. J. Barlow, “Environmentally Friendly Catalysis Using Supported Reagents: Evolution of a Highly Active Form of Immobilised Aluminium Chloride,” Journal of the Chemical Society, Chemical Communications, Vol. 19, No. 19, 1995, pp. 2037-2040. doi:10.1039/c39950002037
|
[11]
|
C. DeCastro, E. Sauvage, M. H. Valkenberg and W. F. Holderich, “Immobilised Ionic Liquids as Lewis Acid Catalysts for the Alkylation of Aromatic Compounds with Dodecene,” Journal of Catalysis, Vol. 196, No. 1, 2000, pp. 86-94. doi:10.1006/jcat.2000.3004
|
[12]
|
Y. Takefumi, I. Tokuji, I. Shigeru, S. Michimasa, K. Yoshiyuki and T. Masanori, “Highly Active Supported Catalysts for Olefin Polymerization: Preparation and Characterization of the Catalyst,” Journal of Polymer Science, Part A: Polymer Chemistry, Vol. 26, No. 2, 1988, pp. 477-489. doi:10.1002/pola.1988.080260212
|
[13]
|
L. M. Wu, M. Ji, M. He and T. X. Cai, “Synthesis of Adamantane Catalyzed by an Active Immobilized Aluminium Chloride Catalyst,” Chinese Journal of Catalysis, Vol. 28, No. 7, 2007, pp. 585-587.
doi:10.1016/S1872-2067(07)60049-7
|
[14]
|
L. L. Qi, M. Ji, M. He and T. X. Cai, “AlCl3/MCM-41 as a Catalyst for Isomerization of Endo-Tricyclodecane,” Chinese Journal of Catalysis, Vol. 31, No. 4, 2010, pp. 383-385. doi:10.1016/S1872-2067(09)60057-7
|
[15]
|
W. H. Zhang, J. L. Shi, L. Z. Wang and D. S. Yan, “Preparation and Characterization of ZnO Clusters inside Mesoporous Silica,” Chemistry of Materials, Vol. 12, No. 5, 2000, pp. 1408-1413. doi:10.1021/cm990740a
|
[16]
|
R. S. Drago and E. E. Getty, “Preparation and Catalytic Activity of a New Solid Acid Catalyst,” Journal of the American Chemical Society, Vol. 110, No. 10, 1988, pp. 3311-3312. doi:10.1021/ja00218a057
|
[17]
|
T. Xu, N. Kob, R. S. Drago, J. B. Nicholas and J. F. Haw, “A Solid Acid Catalyst at the Threshold of Superacid Strength: NMR, Calorimetry, and Density Functional Theory Studies of Silica-Supported Aluminum Chloride,” Journal of American Chemical Society, Vol. 119, No. 50, 1997, pp. 12231-12239. doi:10.1021/ja970850n
|
[18]
|
E. P. Parry, “An Infrared Study of Pyridine Adsorbed on Acidic Solids. Characterization of Surface Acidity,” Journal of Catalysis, Vol. 2, No. 5, 1963, pp. 371-379.
doi:10.1016/0021-9517(63)90102-7
|
[19]
|
T. R. Hughes and H. M. White, “A Study of the Surface Structure of Decationized Y Zeolite by Quantitative Infrared Spectroscopy,” Journal of Physical Chemistry, Vol. 71, No. 7, 1967, pp. 2192-2201.
doi:10.1021/j100866a035
|
[20]
|
C. Defosse and P. Canesson, “Potentiality of Photoelectron Spectroscopy in the Characterization of Surface Acidity: Photoelectron and Infrared Spectroscopic Comparative Study of Pyridine Adsorption on NH4-Y Zeolite Activated at Various Temperatures,” Journal of the Chemical Society, Faraday Transactions 1: Physical Chemistry in Condensed Phases, Vol. 1, No. 72, 1976, pp. 2565-2576.
|