[1] Behrend R, Meyer E, Rusche F. Ueber condensationsproducteaus glycoluril und formaldehyd[J]. Justus Liebigs Ann Chem, 1905, 339: 1-37.
[2] Freeman W A, Mock W L, Shih N Y. Cucurbituril[J]. J Am Chem Soc, 1981, 103: 7 367-7 368.
[3] Lagona J, Mukhopadhyay P, Chakrabrti S, et al. The cucurbit\[n\]uril family\[J\]. Angew Chem Int Ed, 2005, 44(31): 4 844-4 870.
[4] Kim J, Jung I S, Kim S Y, et al. New cucurbituril homologues: syntheses, isolation, characterization, and X-ray crystal structures of cucurbit[n]uril(n=5, 7 and 8)[J]. J Am Chem Soc, 2000, 122(3): 540-541.
[5] Isaacs L. Cucurbit[n]urils: from mechanism to structure and function[J]. Chem Commum, 2009: 619-629.
[6] Liu S M, Zavalij P Y, Isaacs L. Cucurbit[10]uril[J]. J Am Chem Soc, 2005, 127(48): 16 798-16 799.
[7] Lorenzo S, Day A, Craig D, et al. The frst endoannular metal halide-cucurbituril: cis SnCl4(OH2)2@cucurbit\[7\]uril\[J\]. Cryst Eng Comm, 2001, 49: 1-7.
[8] Kim H J, Jeon W S, Ko Y H, et al. Inclusion of methylviologen in cucurbit\[7\]uril\[J\]. Proc Natl Acad Sci USA, 2002, 99(8): 5 007-5 011.
[9] Day A I, Arnold A P, Blanch R J, et al. Controlling factors in the synthesis of cucurbituril and its homologues[J]. J Org Chem, 2001, 66(24): 8 094-8 100.
[10] Jeon Y J, Bharadwaj P K, Choi S W, et al. Supramolecular amphiphiles: spontaneous formation of vesicles triggered by formation of a charge-transfer complex in a host[J]. Angew Chem Int Ed, 2002, 41(23): 4 474-4 476.
[11] Fedin V P, Sokolov M N, Dybstev D N, et al. Supramolecular assemblies of [Mo3Se4Clx(H2O)9-x](4-x)+ with cucurbituril; complementarity control through the variation of x[J]. Inorg Chim Acta, 2002, 331(1): 31-38.
[12] Lee J W, Ko Y H, Park S H, et al. Novel pseudorotaxane-terminated dendrimers: supramolecular modification of dendrimer periphery[J]. Angew Chem Int Ed, 2001, 40(4): 746-749.
[13] Buschmann H J, Cleve E, Schollmeyer E. Cucurbituril as a ligand for the complexation solutions of cations in aqueous solutions[J]. Inorg Chim Acta, 1992, 193(1): 9397.
[14] Mock W L, Shih N Y. Cycloaddition induced by cucurbituril. A case of pauling principle catalysis[J]. J Org Chem, 1983, 48(20): 3 619-3 620.
[15] Pemberton B C, Barooah N, Srivatsava D K, et al. Supramolecular photocatalysis by confinement-photodimerization of coumarins within cucurbit\[8\]urils[J]. Chem Commum, 2010, 46: 225-227.
[16] Cong H, Zhao F F, Zhang J X, et al. Rapid transformation of veratryl alcohol to veratraldehyde in presence of cucurbit[8]uril[J]. Catal Commum, 2009, 11(3): 167-170.
[17] Zou D P, Andersson S, Zhang R, et al. Selective binding of cucurbit[7]uril and β-cyclodextrin with a redox-active molecular triad Ru(bpy)3MV2+ naphthol[J]. Chem Commun, 2007, 4 734-4 736.
[18] Sun S G, Zhang R, Andersson S, et al. Host guest chemistry and light driven molecular lock of Ru(bpy)3 viologen with cucurbit[7, 8]urils[J]. J Phys Chem, 2007, 111(47): 13 357-13 363.
[19] Sun S G, Zhang R, Andersson S, et al. The photoinduced long-lived charge-separated state of Ru(bpy)3 methylviologen with cucurbit[8]uril in aqueous solution[J]. Chem Commun, 2006, 4 195-4 197.
[20] Chen Mu-zi(陈木子), Wang Lu(王璐), Zhang Hai-lu(张海禄), et al. NMR analysis of targeted drug gfitinib(靶向新药吉非替尼的核磁共振波谱研究)[J]. Chinese J Magn Reson (波谱学杂志), 2011, 28(3): 413-418.
[21] Cedric Loge. Synthesis and pharmacological study of Rho kinase inhibitors: pharmacomodulations on the lead compound fasudil[J]. J Enzyme Inhib Med Chem, 2003, 18(2): 127-138.
[22] Ma Yan-hui(马艳辉), Huang Ying(黄英), Zhu Qian-jiang(祝黔江), et al. Inclusion interaction of cucurbit\[8\]uril with methotrexate(八元瓜环与抗癌药物甲氨蝶呤的超分子相互作用)\[J\]. Chem J Chinese Universities (高等学校化学学报), 2011, 32(11): 2 544-2 547.
[23] Yang Xiao-na(杨晓娜), Jiang Song(姜松), Li Xin-jian(李新建), et al. Interaction of cucurbit[n]uril(n=6~8) with buflomedil(瓜环[n](n=6~8)与盐酸丁咯地尔的相互作用)[J]. Chem J Chinese Universities (高等学校化学学报), 2010, 31(12): 2 425-2 430.
[24] Zou D P, Andersson S, Zhang R, et al. A host-induced intramolecular charge-transfer complex and light-driven radical cation formation of a molecular triad with cucurbit\[8\]uril[J]. J Org Chem, 2008, 73(10): 3 775-3 783.
[25] Zou Da-peng(邹大鹏), Kang Jian-xun(康建勋), Liu Hong-min(刘宏民), et al. Sythesis of a new C10 higher carbon sugar and its structure elucidation by NMR and ESI-MS/MS (新型C10高碳糖的NMR和ESI-MS-MS研究)[J]. Chinese J Magn Reson(波谱学杂志), 2004, 21(4): 397-403.
[26] Zhao Yu-mei(赵玉梅), Tang Li-he(汤立合), Miao Zhen-chun(缪振春), et al. NMR and sterochchemistry studies of fexofenadine hydrochloride(盐酸非索非那定的NMR归属和立体化学研究)[J]. Chinese J Magn Reson(波谱学杂志), 2011, 28(2): 265-271.
[27] Feng Qin-zhong(冯钦忠), Zhou Jian-wei(周建威). Quantitative analysis of cantharidin by 1H NMR and UV(关于斑蝥素1H NMR和UV测定结果的商榷)[J]. Chinese J Magn Reson(波谱学杂志), 2011, 27(1): 121-125.
[28] Pérez E M, S-nchez L, Fern-ndez G, et al. exTTF as a building block for fullerene receptors. Unexpected solvent-dependent positive homotropic cooperativity[J]. J Am Chem Soc, 2006, 128(22): 7 172-7 173.
[29] Day A I, Arnold A P, Blanch R J, et al. Controlling factors in the synthesis of cucurbituril and its homologues[J]. J Org Chem, 2001, 66(24): 8 094-8 100.
[30] Connors K A. Binding Constants[M]. New York: Willy Press, 1987. 141-161. |