Nature Communications (Jul 2024)

Hierarchically porous and single Zn atom-embedded carbon molecular sieves for H2 separations

  • Leiqing Hu,
  • Won-Il Lee,
  • Soumyabrata Roy,
  • Ashwanth Subramanian,
  • Kim Kisslinger,
  • Lingxiang Zhu,
  • Shouhong Fan,
  • Sooyeon Hwang,
  • Vinh T. Bui,
  • Thien Tran,
  • Gengyi Zhang,
  • Yifu Ding,
  • Pulickel M. Ajayan,
  • Chang-Yong Nam,
  • Haiqing Lin

DOI
https://doi.org/10.1038/s41467-024-49961-z
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 8

Abstract

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Abstract Hierarchically porous materials containing sub-nm ultramicropores with molecular sieving abilities and microcavities with high gas diffusivity may realize energy-efficient membranes for gas separations. However, rationally designing and constructing such pores into large-area membranes enabling efficient H2 separations remains challenging. Here, we report the synthesis and utilization of hybrid carbon molecular sieve membranes with well-controlled nano- and micro-pores and single zinc atoms and clusters well-dispersed inside the nanopores via the carbonization of supramolecular mixed matrix materials containing amorphous and crystalline zeolitic imidazolate frameworks. Carbonization temperature is used to fine-tune pore sizes, achieving ultrahigh selectivity for H2/CO2 (130), H2/CH4 (2900), H2/N2 (880), and H2/C2H6 (7900) with stability against water vapor and physical aging during a continuous 120-h test.