方解石
沸石
介孔材料
材料科学
化学工程
结晶
锂长石
锂(药物)
无机化学
离子交换
化学
有机化学
催化作用
离子
内分泌学
医学
蒙脱石
工程类
复合材料
作者
Yi Chen,Andaç Armutlulu,Xia Jiang,Bo Lai,Wenju Jiang,Ruzhen Xie,John C. Crittenden
标识
DOI:10.1021/acssuschemeng.0c09240
摘要
Mesoporous zeolite and hybrid zeolite are indispensable materials for the chemical industry; however, their fabrication always involved high production cost, long times, and adverse environmental impact. Here, we report a vacuum–ultraviolet (VUV)-initiated reactive oxygen species (ROS) route for the green and fast synthesis of mesoporous sodalite (SOD) zeolite and a hybrid SOD zeolite directly from lithium silica fume (LSF) waste without template. The fast synthesis is based on in situ generation of ROS (e.g., •OH, O2•–, and 1O2) in amorphous precursor using VUV irradiation, which significantly shortens the crystallization process to produce SOD with high crystallinity and abundant mesopores at low temperature. Further addition of graphene oxide (GO) during SOD preparation could not only inhibit the zeolite aggregation but also initiate electron transfer to further induce generation of superoxide ion radicals (O2•–), and yield a stable hybrid SOD zeolite with narrower band gap within 2 h. The physicochemical properties of the produced SOD and hybrid SOD were carefully studied, whereby electron paramagnetic resonance (EPR) was used to probe the existence of ROS which promote crystallization process. The metal ion adsorptive experiments revealed zeolites produced own superior ion-exchange capacity toward copper ion. This study opens up a new avenue to enable green and ultrafast synthesis of zeolites and hybrid zeolites with improved time efficiency.
科研通智能强力驱动
Strongly Powered by AbleSci AI