Author
Listed:
- Shinnosuke Horiuchi
(The University of Tokyo
Nagasaki University)
- Shota Ogura
(The University of Tokyo
Nagasaki University)
- Kazuya Otsubo
(Tokyo University of Science)
- Yuka Ikemoto
(Japan Synchrotron Radiation Research Institute)
- Hisao Kiuchi
(The University of Tokyo)
- Yudai Shinozaki
(Kitasato University)
- Hiromi Tsuyuki
(Kitasato University)
- Go Watanabe
(Kitasato University
Kitasato University)
- Osamu Takahashi
(Hiroshima University)
- Mikihiro Hayashi
(Nagasaki University)
- Eri Sakuda
(Nagasaki University)
- Yasuhiro Arikawa
(Nagasaki University)
- Keisuke Umakoshi
(Nagasaki University)
- Yoshihisa Harada
(The University of Tokyo)
Abstract
Water at interfaces plays crucial roles in various natural phenomena and in the material sciences. Therefore, understanding the structure and hydrogen-bonding network at such interfaces is essential. Recent advances in porous crystalline materials, combined with single-crystal X-ray diffraction techniques, have enabled the visualization of molecular structures on pore surfaces at atomic resolution. Herein, we report the formation of a supramolecular porous crystal composed of a resorcin[4]arene and a rigid cationic coordination complex, stabilized by hydrogen bonds and noncovalent interactions. This specific arrangement creates a porous framework with anisotropic, information-rich surfaces, accommodating water molecules to form multi-layered water channels. The analysis reveals clustering motifs and hydrogen-bonding patterns in the water molecules at interfaces, supported by molecular dynamics simulations and spectroscopy studies. These findings advance our understanding of the structure–property relationship of water at interfaces in low-entropy crystalline materials, offering insights into their behavior on complex surfaces.
Suggested Citation
Shinnosuke Horiuchi & Shota Ogura & Kazuya Otsubo & Yuka Ikemoto & Hisao Kiuchi & Yudai Shinozaki & Hiromi Tsuyuki & Go Watanabe & Osamu Takahashi & Mikihiro Hayashi & Eri Sakuda & Yasuhiro Arikawa & , 2025.
"Low-entropy supramolecular crystals elucidating the inhomogeneity of interfacial water molecules at atomic resolution,"
Nature Communications, Nature, vol. 16(1), pages 1-9, December.
Handle:
RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-62578-0
DOI: 10.1038/s41467-025-62578-0
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