[1] Kende A S. The course of tropone photodimerization in acetonitrile[J]. J Am Chem Soc, 1966, 88 (21): 5 026-5 027.
[2] Mukai T, Tezuka T, Akasaki Y. Tropone dimer:a new type of photocycloaddition reaction[J]. J Am Chem Soc, 1966, 88 (21): 5 025-5 026.
[3] Isakovic L, Ashenhurst J A, Gleason J L. Application of Lewis acid catalyzed tropone cycloadditions to the synthesis of the core of CP-225,917 [J]. Org Lett, 2001, 3 (26): 4 189-4 192.
[4] Du Y S, Feng J Q, Lu X Y. A phosphine-Catalyzed annulation reaction of modified allylic compounds and tropone[J]. Org Lett, 2005, 7 (10): 1 987-1 989.
[7] Williams R V, Edwards W D, Zhang P R, et al. Experimental verification of the homoaromaticity of 1,3,5-cycloheptatriene and evaluation of the aromaticity of tropone and the tropylium cation by use of the dimethyldihydropyrene probe[J]. J Am Chem Soc, 2012, 134 (40): 16 742-16 752.
[6] Rivero A R, Fernández I, Sierra M Á. Regio-and diastereo-selective stepwise -cycloaddition reaction between tropone derivatives and donor-acceptor cyclopropanes[J]. Org Lett, 2013, 15 (19): 4 928-4 931.
[7] Kumar P, Thakur A, Hong X, et al. Ni(NHC)]-catalyzed cycloaddition of ciynes and tropone: apparent enone cycloaddition involving an 8π Insertion [J]. J Am Chem Soc, 2014, 136 (51): 17 844-17 851.
[8] Davidson I M, Musgrave O C. Condensation of diketones with aromatic compounds. 2. Condensation of hexane-2,5-dione with veratrole and catechol[J]. J Chem Soc, 1963:3 154-3 155.
[9] Chung Y, Duerr B F, McKelvey T A, et al. Structural effects controlling the rate of the retro-Diels-Alder reaction in anthracene cycloadducts [J]. J Org Chem, 1989, 54: 1 018-1 032.
[10] Chopra N, Hardie M J, Raston C L. Discovery of a novel C-60 receptor based on substituted anthracene[J]. Supramolecular Chemistry, 2000, 11 (4): 275-278.
[11] Goossens R, Smet M, Dehaen W. Bronsted-and Lewis acid-catalyzed cyclization giving rise to substituted anthracenes and acridines[J]. Tetrahedron Lett, 2002, 43 (37): 6 605-6 608.
[12] Balaban T S, Eichöfer A, Krische M J, et al. Hierarchic supramolecular interactions within assemblies in solution and in the crystal of 2,3,6,7-tetrasubstituted 5,5'-(anthracene-9,10-diyl)bis homotrimer of 2,3,6,7-tetramethoxy-9,10-dimethylanthracene cation radical[J]. Tetrahedron Lett, 2009, 50: 6 687-6 690.
[16] Ogoshi T, Kitajima K, Umeda K, et al. Lewis acid-catalyzed synthesis of dodecamethoxycalix 4 arene from 1,3,5-trimethoxybenzene and its conformational behavior and host- guest property[J]. Tetrahedron, 2009, 65 (51): 10 644-10 649.
[17] Ghanem B S, Hashem M, Harris K D M, et al. Triptycene-based polymers of intrinsic microporosity: organic materials that can be tailored for gas adsorption[J]. Macromolecules, 2010, 43:5 287-5 294.
[18] Xia Z Y, Su J H, Wong W Y, et al. High performance organic light-emitting diodes based on tetra(methoxy)-containing anthracene derivatives as a hole transport and electron-blocking layer[J]. J Mater Chem, 2010, 20 (38): 8 382-8 388.
[19] Wei J, Han B, Guo Q, et al. 1,5,9-Triazacoronenes: a family of polycyclic heteroarenes synthesized by a threefold pictet-spengler reaction[J]. Angew Chem Int Ed, 2010, 49 (44): 8 209-8 213.
[20] Mohammadpoor-Baltork I, Moghadam M, Tangestaninejad S, et al. H3PW12O40-catalysed alkylation of arenes and diveratrylmethanes:convenient routes to triarylmethanes and to symmetrical and unsymmetrical 9,10-diaryl-2,3,6,7-tetramethoxyanthracenes[J]. Eur J Org Chem, 2011 (7): 1 357-1 366.
[21] Babu B M, Thakur P B, Rao N N, et al. A rapid, highly efficient, and general protocol for the synthesis of functionalized triarylmethanes: a straightforward access for the synthesis of (-)-tatarinoid C[J]. Tetrahedron Lett, 2014, 55 (11): 1 868-1 872. |