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Porous materials with pre-designed single-molecule traps for CO2 selective adsorption

Author

Listed:
  • Jian-Rong Li

    (College of Environmental and Energy Engineering, Beijing University of Technology
    Texas A&M University)

  • Jiamei Yu

    (Materials Science and Engineering Program, Texas A&M University
    Texas A&M University)

  • Weigang Lu

    (Texas A&M University)

  • Lin-Bing Sun

    (Texas A&M University)

  • Julian Sculley

    (Texas A&M University)

  • Perla B. Balbuena

    (Materials Science and Engineering Program, Texas A&M University
    Texas A&M University)

  • Hong-Cai Zhou

    (Texas A&M University
    Materials Science and Engineering Program, Texas A&M University)

Abstract

Despite tremendous efforts, precise control in the synthesis of porous materials with pre-designed pore properties for desired applications remains challenging. Newly emerged porous metal-organic materials, such as metal-organic polyhedra and metal-organic frameworks, are amenable to design and property tuning, enabling precise control of functionality by accurate design of structures at the molecular level. Here we propose and validate, both experimentally and computationally, a precisely designed cavity, termed a ‘single-molecule trap’, with the desired size and properties suitable for trapping target CO2 molecules. Such a single-molecule trap can strengthen CO2–host interactions without evoking chemical bonding, thus showing potential for CO2 capture. Molecular single-molecule traps in the form of metal-organic polyhedra are designed, synthesised and tested for selective adsorption of CO2 over N2 and CH4, demonstrating the trapping effect. Building these pre-designed single-molecule traps into extended frameworks yields metal-organic frameworks with efficient mass transfer, whereas the CO2 selective adsorption nature of single-molecule traps is preserved.

Suggested Citation

  • Jian-Rong Li & Jiamei Yu & Weigang Lu & Lin-Bing Sun & Julian Sculley & Perla B. Balbuena & Hong-Cai Zhou, 2013. "Porous materials with pre-designed single-molecule traps for CO2 selective adsorption," Nature Communications, Nature, vol. 4(1), pages 1-8, June.
  • Handle: RePEc:nat:natcom:v:4:y:2013:i:1:d:10.1038_ncomms2552
    DOI: 10.1038/ncomms2552
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    Cited by:

    1. Grace C. Thaggard & Kyoung Chul Park & Jaewoong Lim & Buddhima K. P. Maldeni Kankanamalage & Johanna Haimerl & Gina R. Wilson & Margaret K. McBride & Kelly L. Forrester & Esther R. Adelson & Virginia , 2023. "Breaking the photoswitch speed limit," Nature Communications, Nature, vol. 14(1), pages 1-12, December.
    2. Chong-Chen Wang & Yuh-Shan Ho, 2016. "Research trend of metal–organic frameworks: a bibliometric analysis," Scientometrics, Springer;Akadémiai Kiadó, vol. 109(1), pages 481-513, October.
    3. Jiyu Cui & Fang Wu & Wen Zhang & Lifeng Yang & Jianbo Hu & Yin Fang & Peng Ye & Qiang Zhang & Xian Suo & Yiming Mo & Xili Cui & Huajun Chen & Huabin Xing, 2023. "Direct prediction of gas adsorption via spatial atom interaction learning," Nature Communications, Nature, vol. 14(1), pages 1-9, December.

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