Yu Sheng Chen scite author profile

Realization of ideal molecular sieves, in which the larger gas molecules are completely blocked without sacrificing high adsorption capacities of the preferred smaller gas molecules, can significantly reduce energy costs for gas separation and purification and thus facilitate a possible technological transformation from the traditional energy-intensive cryogenic distillation to the energy-efficient, adsorbent-based separation and purification in the future. Although extensive research endeavors are pursued to target ideal molecular sieves among diverse porous materials, over the past several decades, ideal molecular sieves for the separation and purification of light hydrocarbons are rarely realized. Herein, an ideal porous material, SIFSIX-14-Cu-i (also termed as UTSA-200), is reported with ultrafine tuning of pore size (3.4 Å) to effectively block ethylene (C H ) molecules but to take up a record-high amount of acetylene (C H , 58 cm cm under 0.01 bar and 298 K). The material therefore sets up new benchmarks for both the adsorption capacity and selectivity, and thus provides a record purification capacity for the removal of trace C H from C H with 1.18 mmol g C H uptake capacity from a 1/99 C H /C H mixture to produce 99.9999% pure C H (much higher than the acceptable purity of 99.996% for polymer-grade C H ), as demonstrated by experimental breakthrough curves.

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Evaluating topologically diverse metal–organic frameworks for cryo-adsorbed hydrogen storage

Gómez-Gualdrón

Colón²,

Zhang

et al. 2016

Energy Environ. Sci.

287

251

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Yu Sheng Chen

5-methylcytosine promotes pathogenesis of bladder cancer through stabilizing mRNAs

An Ideal Molecular Sieve for Acetylene Removal from Ethylene with Record Selectivity and Productivity

Evaluating topologically diverse metal–organic frameworks for cryo-adsorbed hydrogen storage

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