2023

128. ZIF-62 glass foam self-supported membranes to address CH4/N2 separations

Z. Yang, Y. Belmabkhout, L. N. McHugh, D. Ao, Y. Sun, S. Li, Z. Qiao*, T. D. Bennett, M. D. Guiver*, C. Zhong*, Nat. Mater., 2023, accepted.

127. Fabrication of Super-Sized Metal Inorganic-Organic Hybrid Glass with Supramolecular Network via Suppressing Crystallization Approach

M. A. Ali, W. M. W. Winters, D. Tan, G. Zheng, R. S. K. Madsen, O. V. Magdysyuk, M. Diaz-Lopez, B. Cai, M. A. Mohamed, N. Gong, T. D. Bennett, Yijue Xu, Ivan Hung, Zhehong Gan, Sabyasachi Sen, H. T. Sun, X. Liu*, Y. Yue* and J. Qiu*, Angew. Chem. Intl. Ed., 2023, accepted.

126. Formation of a Meltable Purinate Metal–Organic Framework and its Glass Analogue.

A. M. Bumstead, C. Castillo-Blas, I. Pakamorė, M. F. Thorne, A. F. Sapnik, A. M. Chester, G. Robertson, D. J. M. Irving, P. A. Chater, D. A. Keen, R. S. Forgan, T. D. Bennett*, Chem. Commun., 2023, accepted.

125. An upper bound visualization of design trade-offs in adsorbent materials for gas separations: CO2, N2, CH4, H2, Xe, Kr and Ar adsorbents

S. J. Edens, M. J. McGrath, S. Gao, Z. Du, H. Zhou, L. Zhong, Z. Shi, J. Wan, A. Qiao, H. Tao, N. Li, T. D. Bennett, and M. G. Cowan*, Adv. Sci, 2022, accepted.

2022

124. Mapping short-range order at the nanoscale in metal–organic framework and inorganic glass composites.

E. M. Laulainen*, D. N. Johnstone, I. Bogachev, L. Longley, C. Calahoo, L. Wondraczek, D. A. Keen, T. D. Bennett, S. M. Collins*, and Paul A. Midgley*, Nanoscale., 2022, 14, 16524-16535. 

123. Modelling the effect of defects and disorder in amorphous metal-organic frameworks. 

I Bechis, A. Sapnik, A. Tarzia, E. Wolpert, M. Addicoat, D. Keen, T. D. Bennett and K. Jelfs*, Chem. Mater., 2022, 34, 9042–9054.

122. Sediment mineralogy influences the rate of microbial sulfate-reduction in marine sediments.

Burridge,S. Li, T. D. Bennett and S. Turchyn et al, Earth. Plan. Sci. Lett., 2022, 598, 117841.

121. Thermal expansion of metal–organic framework crystal–glass composites.

C. W. Ashling, G. I. Lampronti, T. J. F. Southern, R. C. Evans and T. D. Bennett*, Inorg. Chem., 2022, 46, 18458–18465.

120. Formation of new crystalline qtz-[zn(mim)₂] polymorph from amorphous zif-8.

M. F. Thorne, C. Castillo-Blas, L. N. McHugh, A. M. Bumstead, G. Robertson, A. F. Sapnik, C. S. Coates, F. N. Sayed, C. P. Grey, D. A. Keen, M. Etter, I. da Silva, K. Užarević and T. D. Bennett*, Chem. Comm., 2022, 58, 11949-11952.

119. Investigating the chemical sensitivity of melting in zeolitic imidazolate frameworks.

M. Bumstead, M. F. Thorne, A. F. Sapnik, C. Castillo-Blas, G. I. Lampronti, T. D. Bennett*, Dalton Trans., 2022, 51, 13636-13645.

118. Low-temperature melting and glass formation of the zeolitic imidazolate frameworks zif-62 and zif-76 through ionic liquid incorporation.

Nozari, O. Smirnova, Thomas D. Bennett, A. Knebel, L. Wondraczek*, Adv. Mater., 2022, 2200343.

117. Introducing porosity into metal–organic framework glasses.

L. N. McHugh*, T. D. Bennett*, J. Mat. Chem. A, 2022, 10, 19552-19559.

116. Multivariate analysis of disorder in metal–organic frameworks.

A. F. Sapnik, I. Bechis, A. M. Bumstead, T. Johnson, P. A. Chater, D. A. Keen, K. E. Jelfs and T. D. Bennett*, Nat. Commun, 2022, 13, 2173. 

115. New materials formed by combining inorganic glasses and metal-organic frameworks.

A. M. Chester, C. Castillo-Blas, L. Wondraczek, D. A. Keen and T. D. Bennett*, Chem. Eur. J., 2022, 28, e202200345.

114. Mechanochemically synthesised dicyanamide hybrid organic-inorganic perovskites and their melt-quenched glasses.

L. N. McHugh, M. F. Thorne, A. M. Chester, M. Etter, K. Užarević, and T. D. Bennett*, Chem. Commun., 2022, 58, 3949-3952.

113. Post-Synthetic Modification of a Metal–Organic Framework Glass

A. M. Bumstead, I. Pakamorė, K. D. Richards, M. F. Thorne, S. S. Boyadjieva, C. Castillo-Blas, L. N. McHugh, A. F. Sapnik, D. S. Keeble, D. A. Keen, R. C. Evans, R. S. Forgan, and T. D. Bennett*, Chem. Mater., 2022, 34, 2187–2196.

112. Principles of Melting in Hybrid Organic-Inorganic Perovskite and Polymorphic ABX₃ Structures

B. K. Shaw, C. Castillo-Blas, M. F. Thorne, M. L. R. Gómez, T. Forrest, M. Diaz Lopez, P. A. Chater, L. N. McHugh, D. A. Keen, and T. D. Bennett*, Chem. Sci. 2022,13, 2033-2042.

111. Mechanochemically Synthesised Flexible Electrodes based on Bimetallic Metal-organic Framework Glasses for the Oxygen Evolution Reaction

R. Lin, X. Li, A. Krajnc, Z. Li, M. Li, W. Wang, L. Zhuang, S. Smart, Z. Zhu, D. Appadoo, J. Harmer, Z. Wang, A. Buzanich, S. Beyer, L. Wang, G. Mali, T. D. Bennett, V. Chen, J. Hou*, Agewan. Chem. Intl. Ed, 2022, 61, e202112880.

110. Dicyanamide-perovskites at the edge of dense hybrid organic–inorganic materials

J. García-Ben, L. N. McHugh, T. D. Bennett, J. M. Bermúdez-García, Coord. Chem. Rev. 2022, 455, 214337.

2021

109. Gas adsorption in the topologically disordered Fe-BTC framework

F. Sapnik, C. W. Ashling, L. K. Macreadie, J. Lee, T. Johnson, S. G. Telfer and T. D. Bennett*, J. Mat. Chem. A., 2021, 9, 27019-27027.

108. Properties of Single-Component Metal–Organic Framework Crystal-Glass Composites

L. N. McHugh, M. F. Thorne, G. Robertson, G. Divitini and T. D. Bennett,* Chem. Eur. J., 2021, 28, e202104026.

107. Plasticity of metal-organic framework glasses

R. N. Widmer,*, A. M. Bumstead, M. Jain, T. D. Bennett and J. Michler,* J. Am. Chem. Soc, 2021, 143, 20717–20724.

106. Liquid phase sintering of lead halide perovskites and metal-organic framework glasses

J. Hou*, P. Chen, A. Shukla, A. Krajnc, T. Wang, X. Li, R. Doasa, L. H. G. Tizei, B. Chan, D. N. Johnstone, R. Lin, T. U. Schülli, D. Appadoo, M. S’Ari, Z. Wang, T. Wei, S. Lo, S. Li, M. Lu, E. Namdas, G. Mali, A. K. Cheetham, S. M. Collins*, V. Chen, L. Wang*, T. D. Bennett,* Science, 2021, 374, 621-625.

105. Universal descriptors for disorder, heterogeneous dynamics and the mechanical properties of modern glasses

Pan, O. Benzine, R. Limbach, S. Sawamura, K. Spangenberg, G. Wilde, A. Koike, T. Mori, T. Rouxel, T. D. Bennett, W. Schirmacher, L. Wondraczek,* Phys. Rev. B., 2021, 104, 134106.

104. Mechanically Induced Glass Formation of Zeolitic Imidazolate Frameworks

F. Thorne, A. F. Sapnik, L. N. McHugh,, A. M. Bumstead, C. Castillo-Blas, D. S. Keeble, M. D. Lopez, P. A. Chater, D. A. Keen, T. D.Bennett*, Chem. Commun., 2021, 57, 9272-9275.

103. Ionic Liquid Facilitated Melting of the Metal-Organic Framework ZIF-8

Nozari, C, Calahoo, J. M. Tuffnell, D. A. Keen, T. D. Bennett, L. Wondraczek, Nat. Commun., 2021, 12, 5703.

102. From n- to p-Type Material: Effect of Metal Ion on Charge Transport in Metal–Organic Materials

S. Yoon, A. A. Talin, V. Stavila, A. M. Mroz, T. D. Bennett, Y. He, D. A. Keen, C. H. Hendon, M. D. Allendorf, and M. C. So, ACS Appl. Mat. Inter., 2021, DOI: 10.1021/acsami.1c09130.

101. Melt-Quenched Porous Organic Cage Glasses

M. C. Brand, F. Greenwell, R. Clowes, B. D. Egleston, A. Kai, A. I. Cooper,* T. D. Bennett* and R. L. Greenaway,* J. Mat. Chem. A., 2021, DOI: 10.26434/chemrxiv.14076884.v1.

100. The Changing State of Porous Materials

T. D. Bennett*, François-Xavier Coudert*, S. L. James* and A. I. Cooper*, Nat. Mater., 2021, s41563-021-00957-w.

99. Melting of hybrid organic–inorganic perovskites

B. K. Shaw, A. R. Hughes, M. Ducamp, S. Moss, A. Debnath, A. F. Sapnik, M. F. Thorne, L. N. McHugh, A. Pugliese, D. S. Keeble, P. Chater, J. M. Bermudez-Garcia, X. Moya, S. K. Saha, D. A. Keen, F. X Coudert, F. Blanc and T. D. Bennett *, Nat. Chem., 2021, DOI: s41557-021-00681-7. Highlighted by Chemistry World (https://www.chemistryworld.com/news/new-family-of-glasses-made-from-molten-hybrid-organic-inorganic-perovskite/4013772.article).

98. Mixed Hierarchical Local Structure in a Disordered Metal–Organic Framework

A. F. Sapnik, I. Bechis, S. M. Collins, D. N. Johnstone, G. Divitini, A. J. Smith, P. A. Chater, M. Addicoat, T. Johnson, D. A. Keen, K. E. Jelfs and T. D. Bennett*, Nat. Commun., 2021, 12, 2062. Covered by Nature Chemistry Reviews.

97. Stepwise Collapse of a Giant Pore Metal-Organic Framework

A F. Sapnik, I. Bechis, S. M. Collins, D. N. Johnstone, G. Divitini, A. J. Smith, P. A. Chater, M. Addicoat, T. Johnson, D. A. Keen, K. E. Jelfs and T. D. Bennett*, Dalton Trans., 2021, 50, 5011-5022.

96. Guest Size Limitation in Metal-Organic Framework Crystal-Glass Composites

C. W Ashling, L. K. Macreadie, T. J. F. Southern, Y. Zhang, L. N. McHugh, R. C. Evans, S. Kaskel, S. G. Telfer* and T. D. Bennett*, J. Mat. Chem. A., 2021, 9, 8386-8393.

95. The Reactivity of an Inorganic Glass Melt with ZIF-8

L. Longley, C. Calahoo, T. F. F. Southern, R. C. Evans, L. Wondraczek, and T. D. Bennett*, Dalton Trans., 2021, 50, 3529-3535.

2020

94. Metal-Organic Framework and Inorganic Glass Composites

L. Longley, C. Calahoo, R. Limbach, Y. Xia, J. M. Tuffnell, A. F. Sapnik, M. F. Thorne, D. S. Keeble, D. A. Keen, L. Wondraczek, T. D. Bennett*, Nat. Commun., 2020, 11, 5800.

93. Comparison of the ionic conductivity properties of microporous and mesoporous MOFs infiltrated with a Na-ion containing IL mixture

J. M. Tuffnell, J. K. Morzy, N. D. Kelly, R. Tan, Q. Song, C. Ducati, T. D. Bennett* and S. E. Dutton*, Dalton Trans., 2020, 49, 15914 – 15924.

92. Structural Integrity, Meltability, and Variability of Thermal Properties in the Mixed-linker Zeolitic Imidazolate Framework ZIF-62

V. Nozari, C. Calahoo, L. Longley, T. D. Bennett and L. Wondraczek, J. Chem. Phys., 2020, 153, 204501.

91. A New Route to Porous Metal-Organic Framework Crystal-Glass Composites

S. Li, S. Yu, S. M. Collins, D. N. Johnstone, C. W. Ashling, A. F. Sapnik, P. A. Chater, D. S. Keeble, L. N. McHugh, P. A. Midgley, D. A. Keen and T. D. Bennett*, Chem. Sci., 2020, 11, 9910 – 9918.

90. Structure of Metal–Organic Framework Glasses by Ab Initio Molecular Dynamics

R. Gaillac, P. Pullumbi, T. D. Bennett and F. X. Coudert*, Chem. Mater., 2020, 32, 8004-8011.

89. Impact of 1-methylimidazole on crystal formation, phase transitions and glass formation in a zeolitic imidazolate framework

Y. Yu, A. Qiao, A. M. Bumstead, T. D. Bennett,Y. Yue, and H. Tao*, Crys. Growth and Des., 2020, 10, 6528–6534.

88. The Thermal Stability of Metal-Organic Frameworks

C. Healy, K. M. Patil, B. H. Wilson,L. Hermanspahn, N. C. Harvey-Reid, B. I. Howard, C. Kleinjan, J. Kolien, F. Payet, S. G. Telfer, P. E. Kruger* and T, D. Bennett*, Coord. Chem. Rev., 2020, 419, 213388.

87. Investigating the Melting Behaviour of Polymorphic Zeolitic Imidazolate Frameworks

A. M. Bumstead, M. L. Ríos Gómez, M. F. Thorne, A. F. Sapnik, L. Longley, J. M. Tuffnell, D. S. Keeble, D. A. Keen and T. D. Bennett*, CrystEngComm, 2020, 22, 3627-3637.

86. Mechanochemical synthesis of mixed metal, mixed linker, glass-forming metal-organic frameworks

M. F. Thorne, M. L. R. Gómez, A. M. Bumstead, S. Li, T. D. Bennett, Green Chem., 2020, 22, 2505-2512.

85. Coordination cages as a scaffold for permanently porous liquids

L. Ma, A. B. Grommet, C. J. E. Haynes, A. Walczak, C. C. Parkins, L. Longley, A. Tron, T. D. Bennett* and J. R. Nitschke*. Nat. Chem., 2020, 12, 270-275.

84. Interfacial engineering of polymer – MOF composite by in situ vitrification

R. Lin, J. Hou*, M. Li, Z. Wang, L. Ge, S. Li, S. Smart, Z. Zhu, T. D. Bennett, V. Chen, Chem. Commun., 2020, 56, 3609-3612.

83. Identifying the Liquid and Glassy States of Coordination Polymers and Metal–Organic Frameworks

A. M. Bumstead, M. F. Thorne and T. D. Bennett* , Faraday Discuss., 2020, 225, 210-225.

82. Halogenated metal-organic framework glasses and liquids

J. Hou, M. L. R. Gómez, A. Krajnc, A. McCaul, S. Li, A. M. Bumstead, A. F. Sapnik, Z. Deng, R. Lin, P. A. Chater, D. S. Keeble, D. A. Keen, D. Appadoo, B. Chan, V. Chen, G. Mali, T. D. Bennett,* J. Am. Chem. Soc., 2020, 142, 3880-3890.

81. Tuning the morphological appearance of iron(III) fumarate: impact on material characteristics and biocompatibility

P. Hirschle, C. Hirschle, K. Böll, M Döblinger, M. Hoehn, J. Tuffnell, C. W. Ashling, D. A. Keen, T. D. Bennett, J. Rädler, E. Wagner, M. Peller, U. Lächelt, and S. J. Wuttke*, Chem. Mater., 2020, 32, 2253-2263.

80. Sodium ion conductivity in superionic IL-Impregnated metal-organic frameworks: enhancing stability through structural disorder

V. Nozari, C. Calahoo, J. M. Tuffnell, P. Adelhelm, K. Wondraczek, S. E. Dutton, T. D. Bennett, L. Wondraczek,* Sci. Rep., 2020, 10, 3532.

79. Functional group mapping by electron beam vibrational spectroscopy from nanoscale volumes

S. M. Collins,* D. M. Kepaptsoglou, J. Hou, C. W. Ashling, G. Radtke, T. D. Bennett, P. A. Midgley, and Q. M. Ramasse, Nano. Lett. 2020, 20, 1272-1279.

78. Relating Structural Disorder and Melting in Complex Mixed Ligand Zeolitic Imidazolate Framework Glasses

M. L. R. Gómez, G. I. Lampronti, Y. Yang, J. C. Mauro and T. D. Bennett*, Dalton. Trans., 2020, 49, 850-857.

77. Metal-Organic Framework Gels and Monoliths

J. Hou, A. F. Sapnik and T. D. Bennett*, Chem. Sci., 2020, 11, 310-323.

2019

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76. Synthesis and Properties of a Compositional Series of MIL-51(Al) Metal-Organic Framework Crystal-Glass Composites

C. W. Ashling, D. N. Johnstone, R. N. Widmer, J. Hou, S. M. Collins, A. F. Sapnik, A. Bumstead, P. A. Chater, D. A. Keen and T. D. Bennett*, J. Am. Chem. Soc., 2019, 141, 15641-15648.

75. Phase diagrams of liquid-phase mixing in multi-component metal-organic framework glasses constructed by quantitative elemental nano-tomography

S. M. Collins, K. E. MacArthur, L. Longley, R. Tovey, M. Benning, C. Schönlieb, T. D. Bennett and Paul A. Midgley*, APL Mater, 2019, 7, 091111.

74. Gas permeation of sulfur thin-films and potential as a barrier material

X. Jia, T. D. Bennett* and M. G. Cowan*, Membranes, 2019, 9, 72.

73. Metal-organic framework crystal-glass composites

J. Hou, C. W. Ashling, S. M. Collins, A. Krajnc, C. Zhou, L. Longley, D. N. Johnstone, P. Chater, S. Li, M. V. Coulet, P. L. Llewellyn, F. X. Coudert, D. A. Keen, P. A. Midgley, G. Mali, V. Chen, T. D. Bennett,* Nat. Commun., 2019, 10, 2580.

72. Rich polymorphism of a metal-organic framework in oressure-temperature space

R. N. Widmer, G. I. Lampronti, S. Chibani, C. W. Wilson, S. Anzellini, S. Farsang, A. K. Kleppe, N. P. M. Casati, S. G. MacLeod, S. A. T. Redfern, F. X. Coudert and T. D. Bennett*,   J. Am. Chem. Soc., 2019, 141, 9330-9337.

71. X-ray radiation-induced amorphization of metal-organic frameworks

R. N. Widmer, G. I. Lampronti, N. P. M. Casati, S. Farsang, T. D. Bennett and S. A. T. Redfern*, Phys. Chem. Chem. Phys., 2019, 21, 12389-12395.

70. Novel metal–organic framework materials: blends, liquids, glasses and crystal–glass composites

J. M. Tuffnell, C. W. Ashling, J. Hou, S. Li, L. Longley, M. L. R. Gómez and T. D. Bennett*, Chem. Commun., 2019, Advance Article, DOI: 10.1039/C9CC01468C

R. N. Widmer, G. I. Lampronti, S. Anzellini, R. Gaillac, S. Farsang, C. Zhou, A. M. Belenguer, H. Palmer, A. K. Kleppe, M. T. Wharmby, S. A. T. Redfern, F. X. Coudert,  S. G. Macleod, T. D. Bennett,* Nat. Mater., 2019, 18, 370-376.

68. Flux-melting of metal-organic frameworks

L. Longley, S. M. Collins, S. Li, I. Eruçar, A. Qiao, J. Hou, C. M. Doherty, A. W. Thornton, A. J. Hill, Xiao Yu, N. J. Terrill, A. J. Smith, S. M. Cohen, P. A. Midgley, David A. Keen, S. G. Telfer and T. D. Bennett,* Chem. Sci., 2019, 10, 3592-3601.

67. Improving the acidic stability of zeolitic imidazolate frameworks by bio-functional molecules.

Gao, J. Hou,* Z. Deng, T. Wang, S. Beyer, A. G. Buzanich, J. J. Richardson, A. Rawal, R. Seidel,M. Y. Zulkifli, W. Li, T. D. Bennett, A. K. Cheetham, K. Liang, V. Chen, Chem. 2019, 13, 1597-1608.

66. Optical Properties of a Melt-Quenched Metal-Organic Framework Glass

Qiao, H. Tao, M. Carson, S. Aldrich, L. M. Thirion, T. D. Bennett, John C. Mauro*, Yuanzheng Yue*, Opt. Lett., 2019, 44, 1623-1625.

65. Templated growth of vertically aligned 2D metal–organic framework nanosheets.

H. Li, J. Hou,* T. D. Bennett, J. Liu and Y. Zeng*, J. Mat. Chem. A., 2019, 7, 5811-5818.

64. Structural evolution in a melt-quenched zeolitic imidazolate framework glass during heat-treatment

J. Zhang, L. Longley, H. Liu, C. W. Ashling, P. A. Chater, K. A. Beyer, K. W. Chapman, H. Tao, D. A. Keen, T. D. Bennett,* and Yuanzheng Yue*, Chem. Commun., 2019, 55, 2521-2524.

63. Mechanical properties and processing techniques of bulk metal-organic framework glasses

S. Li, R. Limbach, A. Shirzadi, J. C. Walmsley, D. N. Johnstone, P. A. Midgley, L. Wondraczek, T. D. Bennett,* J. Am. Chem. Soc., 2019, 141, 2, 1027-1034.

62. Prediction of dielectric properties of amorphous ZIFs

H. Wang, N. Li, Z. Hu, T. D. Bennett, X. Zhao and W. Y. Ching, J. Am. Ceram. Soc., 2019, 102, 4602-4611.

2018

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61. Subwavelength spatially resolved coordination chemistry of metal-organic framework glass blends

S. M. Collins, D. M. Kepaptsoglou, K. T. Butler, L. Longley, T. D. Bennett, Q. Ramasse and P. A. Midgley*, J. Am. Chem. Soc., 2018, 140, 17862-17866.

60. Prediction of the Glass Transition Temperatures of Zeolitic Imidazolate Glasses through Topological Constraint Theory

Y. Yang, C. J. Wilkinson, K. Lee, K. Doss, T. D. Bennett, Y. K. Shin, A. C. T. van Duin,† and J. C. Mauro*, J. Phys. Chem. Lett., 2018, 9, 6985-6990.

59. Metal-organic framework glasses with permanent accessible porosity

C. Zhou, L. Longley, A. Krajnc, G. J. Smales, A. Qiao, I. Erucar, C. M. Doherty, A. W. Thornton, A. J. Hill, C. W. Ashling, O. T. Qazvini, S. J. Lee, P. A. Chater, N. J. Terrill, A. J. Smith, Y. Yue, G. Mali, D. A. Keen, S. G. Telfer and T. D. Bennett, Nat. Commum., 2018, 9, 5042.

58. Liquid phase blending of metal-organic frameworks

L. Longley, S. M. Collins, C. Zhou, G. J. Smales, S. E. Norman, N. J. Brownbill, C. W. Ashling, P. A. Chater, R. Tovey, C. Bibiane-Schønlieb, T. F. Headen, N. Terrill, Y. Yue, A. J. Smith, F. Blanc, D. A. Keen, P. A. Midgley and T. D. Bennett,* Nat. Commun., 2018, 9, 2135

57. Liquid, glass and amorphous solid states of coordination polymers and metal–organic frameworks

T. D Bennett* and S. Horike*, Nat. Rev. Mater., 2018, DOI: 10.1038/s41578-018-0054-3

56. Elucidating the variable-temperature mechanical properties of a negative thermal expansion metal-organic framework

J. Heinen, A. D. Ready, T. D. Bennett, D. Dubbeldam, R. W. Friddle, N. C. Burtch, ACS Appl. Mater. Interfaces, 2018, 10, 21079-21083

55. Enabling computational design of ZIFs using ReaxFF

Y. Yang, Y. K. Shin, S. Li, T. D. Bennett, A. C. T. Van Duin, J. C. Mauro*, J. Phys. Chem. B., 2018, 122, 9616-9624

54. Thermodynamic features and enthalpy relaxation in a melt-quenched metal-organic framework glass – ZIF-62

C. Zhou, M. Stepniewska, L. Longley, C. W. Ashling, P. A. Chater, D. A. Keen, T. D. Bennett and Y. Yue*, Phys. Chem. Chem. Phys. 2018, 20, 18291-18296

53. Dielectric properties of zeolitic imidazolate frameworks in the broad-band infrared regime

M. R. Ryder, Z. Zeng, K. Titov, Y. Sun, E. M. Mahdi, I. Flyagina, T. D. Bennett, B. Civalleri, C. S. Kelley, M. D. Frogley, G. Cinque, J. C. Tan, J. Phys. Chem. Lett., 2018, 9, 2678-2684

52. Ultraselective pebax membranes enabled by templated microphase separation

Y. Zhang, Y. Shen, J. Hou,* Y. Zhang, W. Fam, J. Li, T. D. Bennett and V. Chen, ACS Appl. Mater. Interfaces, 2018, 10, 20006-20013

51. Linking Defects, Hierarchical Porosity Generation and Desalination Performance in Metal-Organic Frameworks

W. Liang, L. Li, J. Hou, N. D. Shepherd, T. D. Bennett, D. M. D’essandro and V. Chen., Chem. Sci., 2018, 9, 3508-3516

50. Structural Investigations of Amorphous Metal-Organic Frameworks Formed Via Different Routes

D. A. Keen and T. D. Bennett, Phys. Chem. Chem. Phys., 2018, 20, 7857-7861

49. Tuning the swing effect by chemical functionalization of zeolitic imidazolate frameworks.

C. L. Hobday*, T. D. Bennett, D. Fairen-Jimenez, A. J. Graham, C. A. Morrison, D. R. Allan, T. Düren, S. A. Moggach, J. Am. Chem. Soc., 2018, 140, 382-387.

48. A Metal-Organic Framework with Ultrahigh Glass-Forming Ability

A. Qiao, T. D. Bennett, H. Tao, A. Krajnc, G. Mali, C. M. Doherty, A. W. Thornton, J. C. Mauro, G. N. Greaves, Y. Yue., Sci. Adv., 2018, 4, eaao6827

47. Manufacturing Macroporous Monoliths of Microporous Metal-Organic Frameworks (MOFs)

R. N. Widmer, G. I. Lampronti, B. Kunz, C. Battaglia, J. H. Shepherd, S. A. T. Redfern*,  T. D. Bennett, Appl. Nano. Mater., 2018, 1, 497-500

46. Tuning the Swing Effect by Chemical Functionalization of Zeolitic Imidazolate Frameworks

C. L. Hobday*, T. D. Bennett, D. Fairen-Jimenez, A. J. Graham, C. A. Morrison, D. R. Allan, T. Düren, S. A. Moggach, J. Am. Chem. Soc., 140, 382-387.

45. Polymorph Formation for a Zeolitic Imidazolate Framework Composition – Zn(Im)₂

C. Zhou, M. Stepniewska, J. M. Sørensen, L. Scarpa, V. Buffa, G. Magnacca, D. Wang,                  T. D. Bennett and Y. Yue., Micro. Meso. Mater., 265, 57-62.

2017

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44. Liquid metal–organic frameworks

R. Gaillac, P. Pullumbi, K. A. Beyer, K. W. Chapman, D. A. Keen, T. D. Bennett* and F.X Coudert*, Nat. Mater., 16, 1149-1155.

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43. Interplay between defects, disorder and flexibility in metal-organic frameworks

 T. D. Bennett*, A. K. Cheetham, A. H. Fuchs and F. X. Coudert*, Nat. Chem., 9, 11-16.

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42. Mechanical properties in metal-organic frameworks: Emerging opportunities and challenges for device functionality and technological applications

N. C, Burtch*, J. Heinen, T. D. Bennett, D. Dubbeldam, M. Allendorf, Adv. Mater., 1601705.

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41. Uncovering a reconstructive solid–solid phase transition in a metal–organic framework

L. Longley , N. Li, F. Wei and T. D. Bennett*, R. Soc. Open Sci., 4, 171355

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40. Tackling the Defect Conundrum in UiO-66: A Mixed-Linker Approach to Engineering Missing Linker Defects

Bueken, N. Van Velthoven, A. Krajnc, S. Smolders, F. Taulelle, C. Mellot-Draznieks, G. Mali, T. D. Bennett, D. De Vos*, Chem. Mater., 2017, 29, 10478-10486

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39. Melt-quenched hybrid glasses from metal-organic frameworks

H. Tao, T. D. Bennett*, Y. Yue*, Adv. Mater., 1601705.

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38. Gel-Based Morphological Design of Zirconium Metal-organic Frameworks

B. Bueken, N. Van Velthoven, T. Willhammar, T. Stassin, I. Stassen, D. A. Keen, G. V. Baron, J. F. M. Denayer, R. Ameloot, S. Bals, D. De Vos* and T. D. Bennett* Chem. Sci., 8, 3939-3948.

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37. Detecting Molecular Rotational Dynamics Complementing the Low-Frequency Terahertz Vibrations in a Zirconium-Based Metal-Organic Framework

M. R. Ryder, B. Van de Voorde, B. Civalleri, T. D. Bennett, S. Mukhopadhyay, G. Cinque, F. Fernandez-Alonso, D. De Vos, S. Rudić and J. C. Tan, Phys. Rev. Lett., 118, 255502.

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36. Tracking Thermal-Induced Amorphization of a Zeolitic Imidazolate Framework via Synchrotron In Situ Far-Infrared Spectroscopy

M. R. Ryder, T. D. Bennett, C. Kelley, M. D. Frogley, G. Cinque and J. C. Tan, Chem. Commun., 53, 7041-7044.

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35. Amorphous-amorphous transition in a porous coordination polymer

H. Ohtsu, T. D. Bennett, T. Kojima, D. A. Keen, Y. Niwa, and M. Kawano, Chem. Commun., 53, 7060-7063.

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34. Neutron and X-ray total scattering study of hydrogen disorder in fully hydrated hydrogrossular, Ca₃Al₂(O₄H₄

D.A. Keen*, D. S. Keeble, T. D. Bennett, Phys. Chem. Miner., 10.1007/s00269-017-0923-0

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2016

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33. Template-based synthesis of a formate metal-organic framework/activated carbon fibre composite for high-performance methane adsorptive separation

X. Liu, J. Hu, T. Sun*, Y. Guo, T. D. Bennett*, X. Ren and S. Wang*, Chem. Asian. J., 11, 3014-3017.

32. Melt-Quenched Glasses of Metal-Organic Frameworks

T. D. Bennett*, Y. Yue, P. Lim A. Qiao, H. Tao, G. N. Greaves, T. Richards, G. I. Lampronti, Simon. A. T. Redfern, F. Blanc, O. K. Farha, J. T. Hupp, A. K. Cheetham and D. A. Keen, J. Am. Chem. Soc., 138, 3484-3492.

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31. Porosity in metal–organic framework glasses

A. W. Thornton, K. E. Jelfs, K. Konstas, C. M. Doherty, A. J. Hill, A. K. Cheetham, T. D. Bennett, * Chem. Comm., 52, 3750-2753.

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30. Geometric frustration in UiO frameworks: A computational and experimental approach linking disorder, high-pressure behaviour and mechanical properties

C. H. Hobday, R. J. Marshall, C. F. Murphie, J. Sotelo, T. Richards, D. Allen, T. Duren, F. X. Coudert, R. S. Forgan,* C. A. Morrison,* S. A. Moggach,* T. D. Bennett,*, Angew. Chem. Intl. Ed., 128, 2447-2451.

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29. Connecting defects and amorphization in UiO-66 and MIL-140 metal-organic frameworks: A combined experimental and computational study

T. D. Bennett,* T. K. Todorova, E. F. Baxter, D. G. Reid, C. Gervais, B. Bueken, B. Van de Voorde, D. De Vos, D. A. Keen, and C. Mellot-Draznieks, Phys. Chem. Chem. Phys., 18, 2192-2201.

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28. Defects and Disorder in MOFs

A. K. Cheetham, T. D. Bennett, F. X Coudert, and A. L. Goodwin, Dalton Trans., 45, 4113-4126.

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27. Postsynthetic Bromination of UiO-66 Analogues: Altering Linker Flexibility and Mechanical Compliance

R. J. Marshall, T. Richards, C. Hobday, C. Murphy, C. Wilson, S. A. Moggach, T. D. Bennett* R. S Forgan* Dalton Trans., 45, 4132-4235.

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26. A Comparison of the Amorphization of Zeolitic Imidazolate Frameworks (ZIFs) and Aluminosilicate Zeolites by Ball-milling

E. F. Baxter, T. D. Bennett, Cairns, A., Brownbill, N. J, Goodwin, A. L, Chater, P, Blanc, F and Cheetham, Dalton Trans., 45, 4258-4268.

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2015

25. Hybrid glasses from strong and fragile metal-organic framework liquids

T. D. Bennett,* J. C. Tan, Y. Z. Yue, E. Baxter, C. Ducati, N. Terril, H. H. M. Yeung, Z. Zhou, W. Chen, S. Henke, A. K. Cheetham, G. N. Greaves*, Nat Commun, 6, 8079.

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24. Combined experimental and computational NMR study of crystalline and amorphous zeolitic imidazolate frameworks

E. F Baxter, T. D Bennett, C. Mellot-Draznieks, C. Gervais, F. Blanc, A. K. Cheetham, Phys. Chem. Chem. Phys., 17, 25191-25196.

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23. Amorphous metal-organic frameworks for drug delivery

Orellana-Tavra, E. Baxter, T. Tian, T. D. Bennett, N. K. H. Slater, A. K. Cheetham, D. Fairen-Jimenez*, Chem Commun., 51, 13878-13881.

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22. Extreme flexibility in a zeolitic imidazolate framework: Porous to dense phase transition in desolvated ZIF-4

Wharmby, S. Henke, T. D. Bennett, S. Bajpe, I. Shwedler, S. P. Thompson, F. Gozzo, P. Simoncic, C. Mellot-Draznieks, Y. Z. Yue, A. K. Cheetham, Angew. Chem. Intl. 54, 6447-6451.

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21. Improving the mechanical stability of zirconium-based metal-organic frameworks by incorporation of acidic modulators

Van De Voorde, I. Stassen, B. Bueken, F. Vermootele, D. De Vos, R. Ameloot, Jin-Chong Tan* and T. D. Bennett*, J. Mat. Chem. A., 3, 1737-1742.

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20. Mechanical properties of zeolitic metal-organic frameworks: mechanically flexible topologies and stabilization against structural collapse

T. D. Bennett*, J. Sotelo, Jin-Chong Tan and S. A. Moggach, CrystEngComm, 17, 286-289.

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19. Solid-state conversion of a dense metal-organic framework from a crystalline insulator to an amorphous semiconductor

S. Tominaka, S. Hamoudi, T. Suga, T. D. Bennett, A. Cairns and A. K. Cheetham,  Chemical Science, 6, 1465-1473.

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18. Pressure-induced oversaturation and phase transition in zeolitic imidazolate frameworks with remarkable mechanical stability

P. Zhao, T. D. Bennett, N. Casati, G. I. Lampronti, S. Moggach and S. Redfern, Dalton Trans., 44, 4498-4503

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2014

17. Mechanically and chemically robust ZIF-8 monoliths with high volumetric adsorption capacity

T. Tian, J. Velazquez-Garcia, T. D. Bennett and D. Fairen-Jimenez, J. Mat. Chem. A., 3, 2999-3005.

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16. Crystallography of metal-organic frameworks

T.D. Bennett* and F. Gandara*, IUCrJ, 1, 563-570.

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15. Identifying the role of terahertz vibrations in metal-organic frameworks: From gate-opening phenomenon to shear-driven structural destabilization

M. R. Ryder, B. Civalleri, T. D. Bennett, Jin-Chong Tan, Phys. Rev. Lett., 113, 215502.

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14. Amorphous metal-organic frameworks

T. D. Bennett* and A. K. Cheetham*, Acc. Chem. Res., 47, 1555-1562.

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2013

13. Thermochemistry of zeolitic imidazolate frameworks (ZIFs) with varying porosity
J. T. Hughes, T. D. Bennett, A. K. Cheetham and A. Navrotsky, J. Am. Chem. Soc.,          135, 598-60.

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12. Ball milling induced amorphization of novel and existing zeolitic imidazolate frameworks (ZIFs) for the irreversible trapping of Iodine
T. D. Bennett, P. J. Saines, D. A. Keen, Jin-Chong Tan and A. K. Cheetham, Chem. Eur. J., 19, 7049-7055.

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2012

11. Negative linear compressibility of a metal-organic framework
W. Li, M. R. Probert, M. Kosa, T. D. Bennett, A. Thirumurugan, R. P. Burwood, M. Parinello, J. A. K. Howard, A. K. Cheetham, J. Am. Chem. Soc., 134, 11940-11943.

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10. Amorphization of the prototypical zeolitic imidazolate framework ZIF-8 by ball milling
S. Cao, T. D. Bennett, D. A. Keen, A. L. Goodwin, A. K. Cheetham, Chem Commun., 48, 7805-7807.

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9. Exceptionally low shear modulus in a prototypical imidazole-based metal-organic framework
Jin-Chong Tan, B. Civalleri, Chung-Cherng Lin, L. Valenzano, R. Galvelis, Po-Fei Chen, T. D. Bennett, C. Mellot-Draznieks, C. M. Zicovich-Wilson, A. K. Cheetham, Phys. Rev. Lett., 108, 095502.

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2011

 8. Facile Mechanosynthesis of amorphous zeolitic imidazolate frameworks

T. D. Bennett, S. Cao, Jin-Chong Tan, D. A. Keen, Erica. G. Bithell, P. J. Beldon, T. Friscic, A. K.   Cheetham, J. Am. Chem. Soc.,133, 14546-14549.

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7. Reversible pressure-induced amorphization of a zeolitic imidazolate framework (ZIF-4)
T. D. Bennett, P. Simoncic, S.A. Moggach, F. Gozzo, P. Macchi, D. A. Keen, J. C. Tan,
A. K. Cheetham, Chem. Commun., 47, 7983-7985.

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6. Diffraction study of pressure-amorphized ZrW₂O₈ using In-situ and recovered samples
D. A. Keen, A. L. Goodwin, M. G. Tucker, J. A. Hriljac, T. D. Bennett, M. T. Dove, A. K. Kleppe, A. P. Jephcoat, M. Brunelli, Phys. Rev. B, 064109.

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5. Thermal amorphization of zeolitic imidazolate frameworks
T. D. Bennett, D. A. Keen, J. C. Tan, E. R. Barney, A. L. Goodwin, A. K. Cheetham, Angew. Chem. Int. Ed., 50, 3067.

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2010

4. Structure and properties of an amorphous metal-organic framework
T. D. Bennett, A. L. Goodwin, M. T. Dove, D. A. Keen, M. G. Tucker, E. R. Barney, A. K. Soper, E. G. Bithell, J. C. Tan, A. K. Cheetham, Phys. Rev. Lett.,104, 115503.

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3. Mechanical properties of dense zeolitic imidazolate frameworks (ZIFs): A high-pressure X-ray diffraction, nanoindentation and computational study of the zinc framework Zn(Im)₂, and its lithium-boron Analogue, LiB(Im)₄

T. D. Bennett, J. C. Tan, S. A. Moggach, R. Galvelis, C. Mellot-Draznieks, B. A. Reisner,
A. Thirumurugan, D. R. Allan, A. K. Cheetham, Chem. Eur. J. 16, 10684.

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2. Chemical structure, network topology, and porosity effects on the mechanical properties of ZIFs
J. C. Tan, T. D. Bennett, A. K. Cheetham, Proc. Natl. Acad. Sci. USA, 107, 9938.

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2009

1. The effect of pressure on ZIF-8: Increasing pore size with pressure and the formation of a high-pressure phase at 1.47 GPa
   S. A. Moggach, T. D. Bennett, A. K. Cheetham, Angew. Chem. Int. Ed., 48, 7087.