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Ideal Molecular Splitter with Object Adaptive for Benchmark <i>n</i>-Butylene/<i>iso</i>-Butylene Separation

Yupeng Jiang, Chenghua Deng, Chenxi Liang, Xiaowan Peng, Zeyang Zhang, Li Zhao, Xue-Cui Wu, Jin‐Sheng Zou, Yanan Jia, Mei-Jing Cheng, Jia-Han Li, Jie Zhang, Yun‐Lei Peng, Manglai Gao, Guangjin Chen, Michael J. Zaworotko

2024ACS Materials Letters9 citationsDOI

Abstract

The design of an ecologically friendly and low-energy adsorption separator for acquiring high-purity n -butene ( n -C 4 H 8 ) and iso -butene ( i -C 4 H 8 ) has been anticipated but has not yet materialized. Here, we proposed a physical adsorbent (CALF-20) of a super cage with four-way through and window-specific shrinkage for high-efficiency molecular sieving n -C 4 H 8 and i -C 4 H 8 . Compared with other molecular sieving materials, the adsorption capacity of n -C 4 H 8 created a new benchmark (64.27, 54.82, and 0.01 bar). In situ single-crystal X-ray diffraction (SCXRD) and computational simulation validated the vital role of window-specific shrinkage and object adaptation of CALF-20 for high-efficiency molecular sieving and enhancing the n -C 4 H 8 binding interaction. Breakthrough experiments under dry and humid circumstances proved that CALF-20 can achieve efficiently purified i -C 4 H 8 (≥99.999%) with a benchmark productivity of 105 L/kg by one-step adsorption from a n -C 4 H 8 / i -C 4 H 8 (50/50, v/v) mixture. The excellent separation performance of CALF-20 provides a perfect platform for industrial separation applications.

Topics & Concepts

Ideal (ethics)SplitterBenchmark (surveying)Computer scienceMathematicsGeometryGeologyPhilosophyGeodesyEpistemologyMetal-Organic Frameworks: Synthesis and ApplicationsZeolite Catalysis and SynthesisMembrane Separation and Gas Transport
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