Highly Productive CH/CH Trace Separation by a Packing Polymorph of a Layered Hybrid Ultramicroporous Material.

Mei-Yan Gao, Andrey A Bezrukov, Bai-Qiao Song, Meng He, Sousa Javan Nikkhah, Shi-Qiang Wang, Naveen Kumar, Shaza Darwish, Debobroto Sensharma, Chenghua Deng, Jiangnan Li, Lunjie Liu, Rajamani Krishna, Matthias Vandichel, Sihai Yang

May 2023 J Am Chem Soc

Synopsis of Social media discussions

Discussions demonstrate strong enthusiasm with phrases like 'great impact' and mention of 'subtle pore size/chemistry change,' indicating both technical appreciation and recognition of the research's significance. The tone reflects an understanding of how pore engineering can influence practical applications, marking high interest and engagement.

A
Agreement
 Moderate agreement

Most posts acknowledge the significance of the research, highlighting the successful pore engineering and its positive implications for gas separation.

I
Interest
 High level of interest

Discussions show strong engagement with advanced concepts like pore size, polymorphs, and gas sorption, indicating high curiosity and interest.

E
Engagement
 Moderate level of engagement

Posts include specific references to the methodology and potential applications, demonstrating active engagement beyond surface-level appreciation.

I
Impact
 High level of impact

The posts emphasize the transformative potential of this research for the field of gas separation and material design, suggesting high perceived impact.

Social Mentions

YouTube

2 Videos

Twitter

18 Posts

Metrics

Video Views

327

Total Likes

83

Extended Reach

941,633

Social Features

20

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    Highly Productive C3H4/C3H6 Trace Separation by a Packing Polymorph of a Layered Hybrid Ultramicroporous Material @BernalNews @UL @ZGroupUL #Propene #Propane #Separation #Hybrid #Ultramicroporous #Materials #Polymorph https://t.co/Pd5NgSSxB5
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Abstract Synopsis

  • * The two polymorphs, referred to as () and (), are characterized by different channel structures, with () having both intrinsic and extrinsic channels, leading to improved gas separation capabilities, particularly for CH/CH mixtures.
  • * Advanced techniques like gas sorption and X-ray diffraction reveal that the extrinsic pore structure enhances selectivity for separating CH, achieving a remarkable selectivity of 270 and productivity benchmark for polymer-grade CH, highlighting the importance of pore engineering in optimizing gas separation performance.