Self-assembled Iron-containing Mordenite Monolith for Carbon Dioxide Sieving

Overview

Journal Science

Specialty Science

Date 2021 Aug 26

PMID 34437149

Citations 16

Authors

Yu Zhou

Jianlin Zhang

Lei Wang

Xili Cui

Xiaoling Liu

Sie Shing Wong

Hua An

Ning Yan

Jingyan Xie

Cong Yu

Peixin Zhang

Yonghua Du

Shibo Xi

Lirong Zheng

Xingzhong Cao

Yajing Wu

Yingxia Wang

Chongqing Wang

Haimeng Wen

Lei Chen

Huabin Xing

Jun Wang

Affiliations

Soon will be listed here.

Abstract

The development of low-cost, efficient physisorbents is essential for gas adsorption and separation; however, the intrinsic tradeoff between capacity and selectivity, as well as the unavoidable shaping procedures of conventional powder sorbents, greatly limits their practical separation efficiency. Herein, an exceedingly stable iron-containing mordenite zeolite monolith with a pore system of precisely narrowed microchannels was self-assembled using a one-pot template- and binder-free process. Iron-containing mordenite monoliths that could be used directly for industrial application afforded record-high volumetric carbon dioxide uptakes (293 and 219 cubic centimeters of carbon dioxide per cubic centimeter of material at 273 and 298 K, respectively, at 1 bar pressure); excellent size-exclusive molecular sieving of carbon dioxide over argon, nitrogen, and methane; stable recyclability; and good moisture resistance capability. Column breakthrough experiments and process simulation further visualized the high separation efficiency.

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