Litcius/Paper detail

Metal–Organic-Framework-Based Polymers for Effective Water Harvesting in Arid Areas

Xiaomei Liu, Tao Feng, Wenbin Ding, Zhenshi Zhang, Huaiwu Peng, Cailing Yang, Jing Li, Pengbo Liu, Qi Li, Li Zhang, Ziqiang Lei

2023ACS Applied Polymer Materials20 citationsDOI

Abstract

This study used a postsynthetic modification strategy to amidate UIO-66-NH 2 to synthesize a functional copolymer monomer by free radical polymerization with acrylic acid (AA) and acrylamide (AM) to form hygroscopic polymer materials based on UIO-66-NH 2 (UPHMs). The experiments show that the uptake capacity of UIO-66-NH 2 -self-polymerization products and UPHMs for water vapor is 11.1 and 18.6 times that of pure UIO-66-NH 2, respectively. And UPHMs can be adsorbed in a wide range of adsorption humidity (relative humidity (RH) from 50 to 90%) and with high adsorption of liquid water (salt), rapid water vapor capture (at 90% RH and 25 °C, 10 h adsorption efficiency reaches 1.9 g/g), low desorption temperature, and higher water release rate. The method offers a promising route for the development of atmospheric water recovery materials based on adsorbents, and it opens horizons for the controllable preparation of soft MOF hydrogels and functional materials for many promising applications.

Topics & Concepts

AridEnvironmental sciencePolymerMetal-organic frameworkMaterials scienceEcologyChemistryBiologyOrganic chemistryComposite materialAdsorptionPolymer-Based Agricultural EnhancementsMembrane Separation TechnologiesHydrogels: synthesis, properties, applications