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Pore space partition of metal-organic frameworks for gas storage and separation

分拆(数论) 土壤孔隙空间特征 化学空间 计算机科学 纳米技术 灵活性(工程) 气体分离 关注点分离 材料科学 分布式计算 工艺工程 化学 多孔性 工程类 数学 软件 组合数学 统计 复合材料 药物发现 生物化学 程序设计语言
作者
Anh N. Hong,Huajun Yang,Xianhui Bu,Pingyun Feng
出处
期刊:EnergyChem [Elsevier BV]
卷期号:4 (4): 100080-100080 被引量:71
标识
DOI:10.1016/j.enchem.2022.100080
摘要

Pore space partition (PSP) concept is a synthetic design concept and can also serve as a structure analysis method useful for next-step synthetic planning and execution. PSP provides an integrated chemistry-topology-focused tool to design new materials platforms. While PSP is no less effective for making large-pore materials, the growing importance of small-molecule gas storage and separation for green-energy applications provides impetus for developing small-pore materials for which the PSP strategy is uniquely suited. Currently, the best embodiment of the PSP concept is the partitioned-acs (pacs) platform in which both fine or coarse adjustments to the building blocks have sparked a transformation of a prototype framework into a huge and continuously expanding family of chemically robust materials with controllable pore metrics and functionalities suitable for tailored applications. The pacs compositional diversity results from the platform's intrinsic multi-module nature, geometric flexibility and tolerance towards individual module variations, and mutual structure-directing effects among various modules, all of which combine to enable the molecular-level uniform co-assemblies of chemical components rarely seen together elsewhere. In this contribution, we present an overview of different pore space engineering methods and how different MOF materials have contributed to important advances in chemical stability, industrial gas storage and gas separation. In particular, we will focus on synthetic assembly of the pacs system, highlighting the differences of pacs materials from other MOF platforms and advantages of pacs materials in enhancing various MOF properties.
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