沸石
微型多孔材料
硅酸铝
辐照
材料科学
结晶
热液循环
产量(工程)
化学工程
电子束处理
蚀刻(微加工)
Crystal(编程语言)
阴极射线
水热合成
化学
电子
纳米技术
催化作用
复合材料
有机化学
程序设计语言
工程类
核物理学
计算机科学
图层(电子)
物理
量子力学
作者
Junchang Chen,Mingxing Zhang,Jie Shu,Mengjia Yuan,Wenfu Yan,Pu Bai,Linwei He,Nan‐Nan Shen,Shicheng Gong,Duo Zhang,Jiong Li,Jiangtao Hu,Rong Li,Guozhong Wu,Zhifang Chai,Jihong Yu,Shuao Wang
标识
DOI:10.1002/anie.202103766
摘要
Abstract Zeolites are a well‐known family of microporous aluminosilicate crystals with a wide range of applications. Their industrial synthetic method under hydrothermal condition requires elevated temperature and long crystallization time and is therefore quite energy‐consuming. Herein, we utilize high‐energy electron beam irradiation generated by an industrial accelerator as a distinct type of energy source to activate the formation reaction of Na‐A zeolite. The initial efforts afford an attractive reaction process that can be achieved under ambient conditions and completed within minutes with almost quantitative yield, leading to notable energy saving of one order of magnitude compared to the hydrothermal reaction. More importantly, electron beam irradiation simultaneously exhibits an etching effect during the formation of zeolite generating a series of crystal defects and additional pore windows that can be controlled by irradiation dose. These observations give rise to significantly enhanced surface area and heavy metal removal capabilities in comparison with Na‐A zeolite synthesized hydrothermally. Finally, we show that this method can be applied to many other types of zeolites.
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