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Synthesis and characterization of chiral mesoporous silica

Author

Listed:
  • Shunai Che

    (Shanghai Jiao Tong University)

  • Zheng Liu

    (Bussan Nanotech Research Institute
    Stockholm University)

  • Tetsu Ohsuna

    (Stockholm University)

  • Kazutami Sakamoto

    (Ajinomoto Co., Inc.)

  • Osamu Terasaki

    (Stockholm University)

  • Takashi Tatsumi

    (Yokohama National University)

Abstract

Chirality is widely expressed in organic materials, perhaps most notably in biological molecules such as DNA, and in proteins, owing to the homochirality of their components (d-sugars and l-amino acids). But the occurrence of large-scale chiral pores in inorganic materials is rare1. Although some progress has been made in strategies to synthesize helical and chiral zeolite-like materials1,2,3, the synthesis of enantiomerically pure mesoporous materials is a challenge that remains unsolved4. Here we report the surfactant-templated synthesis of ordered chiral mesoporous silica, together with a general approach for the structural analysis of chiral mesoporous crystals by electron microscopy. The material that we have synthesized has a twisted hexagonal rod-like morphology, with diameter 130–180 nm and length 1–6 µm. Transmission electron microscopy combined with computer simulations confirm the presence of hexagonally ordered chiral channels of 2.2 nm diameter winding around the central axis of the rods. Our findings could lead to new uses for mesoporous silica and other chiral pore materials in, for example, catalysis and separation media, where both shape selectivity and enantioselectivity5 can be applied to the manufacturing of enantiomerically pure chemicals and pharmaceuticals.

Suggested Citation

  • Shunai Che & Zheng Liu & Tetsu Ohsuna & Kazutami Sakamoto & Osamu Terasaki & Takashi Tatsumi, 2004. "Synthesis and characterization of chiral mesoporous silica," Nature, Nature, vol. 429(6989), pages 281-284, May.
  • Handle: RePEc:nat:nature:v:429:y:2004:i:6989:d:10.1038_nature02529
    DOI: 10.1038/nature02529
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    Cited by:

    1. Shengfu Wu & Xin Song & Cong Du & Minghua Liu, 2024. "Macroscopic homochiral helicoids self-assembled via screw dislocations," Nature Communications, Nature, vol. 15(1), pages 1-9, December.
    2. Chang Liu & Yan Zhao & Tai-Song Zhang & Cheng-Bo Tao & Wenwen Fei & Sheng Zhang & Man-Bo Li, 2023. "Asymmetric transformation of achiral gold nanoclusters with negative nonlinear dependence between chiroptical activity and enantiomeric excess," Nature Communications, Nature, vol. 14(1), pages 1-10, December.

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