二氧化碳
吸附
化学
沸石
化学工程
热稳定性
碳纤维
埃洛石
选择性
热的
纳米技术
二氧化碳电化学还原
纳米颗粒
原位
甲烷
无机化学
可扩展性
碳纳米纤维
作者
Jinlei Li,Junyan Li,Siyuan Fang,Hao Lyu,Lin Yuan,Xun Guan,Guangxia Feng,Xiwen Chi,Haiyan Mao,Yecun Wu,Yuqi Li,Zaichun Liu,Zimo Zhang,Peter B. Catrysse,Jennifer Dionne,Shanhui Fan,Yi Cui
摘要
with good cyclic stability. The transformation from a layered to a cubic framework with enlarged vacant spaces significantly enhances carbon dioxide accommodation. Additionally, the as-prepared zeolite demonstrates outstanding carbon dioxide/nitrogen selectivity (178 for 5% carbon dioxide) and robust thermal stability over multiple adsorption-desorption cycles. In situ tests reveal that adsorption is primarily governed by weakly bound interactions, allowing for the easy regeneration. This study presents a promising and scalable strategy for developing high-performance adsorbents toward gigaton-scale carbon dioxide capture applications.
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