In Silico Discovery of High Deliverable Capacity Metal–Organic Frameworks | Zendy

Yi Bao | Zendy; Richard L. Martin | Zendy; Cory M. Simon | Zendy; Maciej Harańczyk | Zendy; Berend Smit | Zendy; Michael W. Deem | Zendy

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In Silico Discovery of High Deliverable Capacity Metal–Organic Frameworks

Author(s) -

Yi Bao,

Richard L. Martin,

Cory M. Simon,

Maciej Harańczyk,

Berend Smit,

Michael W. Deem

Publication year - 2014

Publication title -

the journal of physical chemistry c

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.401

H-Index - 289

eISSN - 1932-7455

pISSN - 1932-7447

DOI - 10.1021/jp5123486

Subject(s) - deliverable , metal organic framework , in silico , computer science , biochemical engineering , nanotechnology , adsorption , materials science , chemistry , engineering , systems engineering , organic chemistry , biochemistry , gene

Metal-organic frameworks (MOFs) are actively being explored as potential adsorbed natural gas storage materials for small vehicles. Experimental exploration of potential materials is limited by the throughput of synthetic chemistry. We here describe a computational methodology to complement and guide these experimental efforts. The method uses known chemical transformations in silico to identify MOFs with high methane deliverable capacity. The procedure explicitly considers synthesizability with geometric requirements on organic linkers. We efficiently search the composition and conformation space of organic linkers for 9 MOF networks, finding 48 materials with higher predicted deliverable capacity (at 65 bar storage, 5.8 bar depletion, and 298 K) than MOF-5 in 4 of the 9 networks. The best material has a predicted deliverable capacity 8% higher than that of MOF-5

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