材料科学
汽油
吸附
辛烷值
辛烷值
分离(统计)
烷烃
化学工程
分子筛
纳米技术
碳氢化合物
有机化学
工艺工程
沸石
生产(经济)
分子
作者
Zhenglong Zhu,Fengqi Huang,Hao Wang,Junhui Liu,Shuai Hua,Yanan Wang,Xing Liu,Peng Yan,Shuangqing Shang,Yong Zeng,Cheng Liu,Jingwen Chen,Shixia Chen,Zhenyu Zhou,Jun Wang
标识
DOI:10.1002/adfm.202518571
摘要
Abstract The separation of six‐component C 5 ‐C 6 alkanes remains a critical challenge for high‐quality gasoline production due to their similar molecular sizes and properties. Herein, a gourd‐shaped Zn 4 (cpy‐2CH 3 ) 3 framework is developed featuring a strategically contracted aperture neck with a spacious cavity to selectively remove linear n‐C 5 and n‐C 6 alkane. The optimized architecture achieves exceptional molecular sieving performances, simultaneously achieving high adsorption capacities for linear n‐C 5 (2.88 mmol g −1 ) and n‐C 6 (2.47 mmol g −1 ) while completely excluding their branched and cyclic counterparts. Computational simulations elucidate the fundamental mechanism governing this selective adsorption behavior. Breakthrough experiments further confirm its superior practical separation feasibility with excellent cyclability, even under humid conditions. Moreover, Zn 4 (cpy‐2CH 3 ) 3 enables direct production of high research octane number (RON) (>90) gasoline from six‐component C 5 ‐C 6 alkane mixtures, which collectively establish Zn 4 (cpy‐2CH 3 ) 3 as a potent adsorbent for high‐RON gasoline production.
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