A robust soc-MOF platform exhibiting high gravimetric uptake and volumetric deliverable capacity for on-board methane storage

Gaurav Verma; Sanjay Kumar; Harsh Vardhan; Junyu Ren; Zheng Niu; Tony Pham; Lukasz Wojtas; Sydney Butikofer; Jose C Echeverria Garcia; Yu-Sheng Chen; Brian Space; and Shengqian Ma

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A robust soc-MOF platform exhibiting high gravimetric uptake and volumetric deliverable capacity for on-board methane storage

机译：一种强大的SOC-MOF平台，展示了高重量的吸收和用于车载甲烷储存的容量可交付能力

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Emerging as an outperformed class of metal-organic frameworks(MOFs),square-octahedron(soc)topology MOFs(soc-MOFs)feature superior properties of high porosity,large gas storage capacity,and excellent thermal/chemical stability.We report here an iron based soc-MOF,denoted as Fe-pbpta(H4pbpta=4,4'',4'''',4''''''-(1,4-phenylenbis(pyridine-4,2-6-triyl))-tetrabenzoic acid)possessing a very high Brunauer,Emmett and Teller(BET)surface area of 4,937 m2/g and a large pore volume of 2.15 cm3/g.The MOF demonstrates by far the highest gravimetric uptake of 369 cm3(STP)/g under the DOE operational storage conditions(35 bar and 298 K)and a high volumetric deliverable capacity of 192 cc/cc at 298 K and 65 bar.Furthermore,Fe-pbpta exhibits high thermal and aqueous stability making it a promising candidate for on-board methane storage.

机译：作为一种优秀的金属有机框架（MOF），方八面体（SOC）拓扑MOF（SOC-MOFS）具有优异的高孔隙度，大储能容量和优异的热/化学稳定性。我们在此报告基于铁的SOC-MOF，表示为FE-PBPTA（H4PBPTA = 4,4'，4'''，4'''' - （1,4-苯基（吡啶-4,2-6-三苯） - 四苯甲酸）具有非常高的Brunauer，Emmett和Teller（Bet）表面积为4,937m2 / g，大的孔体积为2.15cm 3 / g。MOF的最高重量摄取为369cm3（STP在DOE运行储存条件下（35巴和298 k）和192 k和65巴的高容量可交付能力和192 k和65 bar的高容量可交付能力.Furtheratory，Fe-Pbpta表现出高热和水性稳定性，使其成为有希望的候选者用于车载甲烷储存。

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《纳米研究：英文版》 |2021年第2期|P.512-517|共6页
作者
Gaurav Verma; Sanjay Kumar; Harsh Vardhan; Junyu Ren; Zheng Niu; Tony Pham; Lukasz Wojtas; Sydney Butikofer; Jose C Echeverria Garcia; Yu-Sheng Chen; Brian Space; and Shengqian Ma;
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Department of Chemistry University of South Florida 4202 E.Fowler Ave. Tampa FL 33637 USA;

Department of Chemistry University of South Florida 4202 E.Fowler Ave. Tampa FL 33637 USADepartment of Chemistry Multani Mai Modi College Patiala 147001 India;

Department of Chemistry University of South Florida 4202 E.Fowler Ave. Tampa FL 33637 USA;

Department of Chemistry University of South Florida 4202 E.Fowler Ave. Tampa FL 33637 USA;

Department of Chemistry University of South Florida 4202 E.Fowler Ave. Tampa FL 33637 USA;

Department of Chemistry University of South Florida 4202 E.Fowler Ave. Tampa FL 33637 USADepartment of Chemistry Biochemistry and Physics The University of Tampa 401 W.Kennedy Blvd. Tampa FL 33606-1490 USA;

Department of Chemistry University of South Florida 4202 E.Fowler Ave. Tampa FL 33637 USA;

Department of Chemistry University of South Florida 4202 E.Fowler Ave. Tampa FL 33637 USADepartment of Chemical and Biomolecular Engineering University of Illinois at Urbana-Champaign Champaign IL 61801 USA;

Department of Chemistry University of South Florida 4202 E.Fowler Ave. Tampa FL 33637 USA;

ChemMatCARS Center for Advanced Radiation Sources The University of Chicago 9700 South Cass Avenue Argonne IL 60439 USA;

Department of Chemistry University of South Florida 4202 E.Fowler Ave. Tampa FL 33637 USA;

Department of Chemistry University of South Florida 4202 E.Fowler Ave. Tampa FL 33637 USA;

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正文语种 chi
中图分类物理化学（理论化学）、化学物理学;
关键词
metal-organic framework(MOF); reticular chemistry; methane storage; aqueous stability; high gravimetric and volumetric uptake;

机译：金属有机框架（MOF）;网状化学;甲烷储存;水性稳定性;高重量和体积吸收;
入库时间 2024-01-27 05:05:19

A robust soc-MOF platform exhibiting high gravimetric uptake and volumetric deliverable capacity for on-board methane storage

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