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78. M. Pramanik, M. Nandi, H. Uyama, A. Bhaumik, Organic-inorganic hybrid tinphosphonate
material with mesoscopic void spaces: an excellent catalyst for the radical polymerization of
styrene. Catal. Sci. Technol. 2 , 613-620 (2012)
79. A. Dutta, M. Pramanik, A.K. Patra, M. Nandi, H. Uyama, A. Bhaumik, Hybrid porous
tin(IV) phosphonate: an efficient catalyst for adipic acid synthesis and a very good adsor-
bent for CO 2 uptake. Chem. Commun. 48 , 6738-6740 (2012)
80. A.A.G. Shaikh, S. Sivaram, Organic carbonates. Chem. Rev. 96 , 951-976 (1996)
81. J.L. Song, Z.F. Zhang, S.Q. Hu, T.B. Wu, T. Jiang, B.X. Han, MOF-5/n-Bu 4 NBr: an effi-
cient catalyst system for the synthesis of cyclic carbonates from epoxides and CO 2 under
mild conditions. Green Chem. 11 , 1031-1036 (2009)
82. D.A. Yang, H.Y. Cho, J. Kim, S.T. Yang, W.S. Ahn, CO 2 capture and conversion using
Mg-MOF-74 prepared by a sonochemical method. Energy Environ. Sci. 5 , 6465-6473
(2012)
83. Y.W. Ren, Y.C. Shi, J.X. Chen, S.R. Yang, C.R. Qi, H.F. Jiang, Ni(salphen)-based metal-
organic framework for the synthesis of cyclic carbonates by cycloaddition of CO 2 to epox-
ides. RSC Adv. 3 , 2167-2170 (2013)
84. D.W. Feng, W.C. Chung, Z.W. Wei, Z.Y. Gu, H.L. Jiang, Y.P. Chen, D.J. Darensbourg, H.C.
Zhou, Construction of ultrastable porphyrin Zr metal-organic frameworks through linker
elimination. J. Am. Chem. Soc. 135 , 17105-17110 (2013)
85. J. Kim, S.N. Kim, H.G. Jang, G. Seo, W.S. Ahn, CO 2 cycloaddition of styrene oxide over
MOF catalysts. Appl. Catal. A 453 , 175-180 (2013)
86. Y.P. Zhu, Y.L. Liu, T.Z. Ren, Z.Y. Yuan, Mesoporous nickel phosphate/phosphonate hybrid
microspheres with excellent performance for adsorption and catalysis. RSC Adv. 4 , 16018-
16021 (2014)
87. Y.P. Zhu, T.Z. Ren, Z.Y. Yuan, Hollow cobalt phosphonate spherical hybrid as high-effi-
ciency Fenton catalyst. Nanoscale 6 , 11395-11402 (2014)
88. Y.K. Hwang, D.Y. Hong, J.S. Chang, S.H. Jhung, Y.K. Seo, J. Kim, A. Vimont, M. Daturi,
C. Serre, G. F←rey, Amine grafting on coordinatively unsaturated metal centers of MOFs:
consequences for catalysis and metal encapsulation. Angew. Chem. Int. Ed. 47 , 4144-4148
(2008)
89. J. Gascon, U. Aktay, M.D. Hernandez-Alonso, G.P.M. van Klink, F. Kapteijn, Amino-based
metal-organic frameworks as stable, highly active basic catalysts. J. Catal. 261 , 75-87
(2009)
90. N.V. Maksimchuk, K.A. Kovalenko, V.P. Fedinm, O.A. Kholdeeva, Heterogeneous selective
oxidation of alkenes to alpha, beta-unsaturated ketones over coordination polymer MIL-101.
Adv. Synth. Catal. 352 , 2943-2948 (2010)
91. T.Y. Ma, Z.Y. Yuan, Functionalized periodic mesoporous titanium phosphonate monoliths
with large ion exchange capacity. Chem. Commun. 46 , 2325-2327 (2010)
92. T.Y. Ma, Z.Y. Yuan, Periodic mesoporous titanium phosphonate spheres for high dispersion
of CuO nanoparticles. Dalton Trans. 39 , 9570-9578 (2010)
93. J.L. Cao, Y. Wang, X.L. Yu, S.R. Wang, S.H. Wu, Z.Y. Yuan, Mesoporous CuO-Fe 2 O 3 com-
posite catalysts for low-temperature carbon monoxide oxidation. Appl. Catal. B 26 , 26-34
(2008)
94. J.L. Cao, G.S. Shao, Y. Wang, Y.P. Liu, Z.Y. Yuan, CuO catalysts supported on attapulgite
clay for low-temperature CO oxidation. Catal. Commun. 9 , 2555-2559 (2008)
95. H.P. Perry, J. Law, J. Zon, A. Clearfield, Porous zirconium and tin phosphonates incorporat-
ing 2,2′-bipyridine as supports for palladium nanoparticles. Micropor. Mesopor. Mater. 149 ,
172-180 (2012)
96. X.Y. Liu, A.Q. Wang, X.F. Yang, T. Zhang, C.Y. Mou, D.S. Su, J. Li, Synthesis of thermally
stable and highly active bimetallic Au-Ag nanoparticles on inert supports. Chem. Mater. 21 ,
410-418 (2009)
97. J. Canivet, S. Aguado, Y. Schuurman, D. Farrusseng, MOF-supported selective ethylene
dimerization single-site catalysts through one-pot postsynthetic modification. J. Am. Chem.
Soc. 135 , 4195-4198 (2013)
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