物理吸附
笼状水合物
范德瓦尔斯力
甲烷
吸附
材料科学
化学物理
聚类分析
面(心理学)
分子
纳米技术
化学工程
Crystal(编程语言)
极地的
晶体结构
作者
Keyi Zhong,Shuyi Jiang,Jun Duan,Yuanxin Yao,Zixuan Song,Daoyi Chen,Kai Liu,Pengfei Wang,Jinlong Zhu,Xiao Feng,Mucong Zi
标识
DOI:10.1002/adfm.202527509
摘要
ABSTRACT Achieving high volumetric capacity for solid‐state methane (CH 4 ) storage under mild conditions remains a challenge for vehicular applications. While metal‐organic frameworks (MOFs) demonstrate excellent CH 4 physisorption kinetics, most fail to meet the U.S. Department of Energy (DOE)'s target of 263 v/v at pressures below 6.5 MPa. Here, we propose a strategy that engineers the exposed crystal facet of MOF to promote the clathrate formation on the surface, achieving an efficient combination of MOF adsorption and clathrate CH 4 storage. We find that the exposed {100} facets of cubic ZIF‐8 can induce polar water molecules to assemble into structured clusters and further encapsulate CH 4 molecules, attributed to electrostatic interactions and the van der Waals effect. Finally, the cubic ZIF‐8 boosts the massive generation of CH 4 clathrate on the exposed facets and maintains the physical adsorption capacity for CH 4 within the pores. In the fixed‐bed system, pre‐wetted cubic ZIF‐8 can efficiently store CH 4 with a recorded capacity of 343 v/v at 5 MPa, surpassing the DOE's target.
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