New Paradigms in Porous Framework Materials for Acetylene Storage and Separation
Gaurav Verma, Junyu Ren, Sanjay Kumar, Shengqian Ma
Abstract
Abstract Acetylene is an important precursor in the petrochemical, plastics and electronic industries, as well as the prominent fuel for welding and metal cutting. The high flammability and explosive nature of acetylene, however hinder its safe storage and transportation. Porous materials are highly promising for acetylene storage and as they can provide strong binding interactions and an optimal pore environment. Furthermore, high selectivity and separation can be achieved for acetylene over other gases such as CO 2 and small hydrocarbons. In this review, we divulge into the recent advancements and paradigms in acetylene storage and separation with a focus on porous metal‐organic frameworks (MOFs). An overview of the benchmark materials for acetylene storage and separation, along with some recent developments in the strategies to balance the trade‐off between the uptake capacity and selectivity is provided. The approaches of designing small pores and highly functionalized pore environments for strong binding with the acetylene adsorbate; along with the pore space partition, window space directed assembly and inverse CO 2 /C 2 H 2 adsorption for the separation of acetylene from CO 2 , CH 4 , C 2 H 4 and other hydrocarbons are reviewed to provide a summary and help further augment the research in this direction.