2025 - Sustainable Industrial Processing Summit
SIPS2025 Volume 13. Intl. Symp on Solid State Chemistry, Physical Chemistry, Corrosion and Coating

Editors:F. Kongoli, I. Chung, H. Kageyama, M.G. Kanatzidis, F. Marquis, A. Navrotsky, A. Tressaud, J. Atwood, G. Duca, R. Kuroda, A. Legocki, J. Lipkowski, M. Zaworotko, R. Singh, R. Gupta, M. Halama, D. Macdonald, F. Wang
Publisher:Flogen Star OUTREACH
Publication Year:2025
Pages:262 pages
ISBN:978-1-998384-62-4 (CD)
ISSN:2291-1227 (Metals and Materials Processing in a Clean Environment Series)
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    NON-COVALENT INTERACTIONS – USEFUL TOOLS IN CRYSTAL ENGINEERING

    Gheorghe Duca1; Marius Andruh2;
    1MOLDOVA STATE UNIVERSITY, Chișinău, Moldova; 2ROMANIAN ACADEMY, Bucharest, Romania;
    Type of Paper: Regular
    Id Paper: 10
    Topic: 53

    Abstract:

    The search for crystalline molecular materials showing interesting and technologically useful properties is one of the most important challenges of crystal engineering. All the synthetic approaches leading to such systems rely on the directionality of the interactions connecting the building-blocks. Apart from the coordination bonds, largely employed to construct molecular solids, other interactions can be useful too: hydrogen and halogen bonds (both directional), metallophilic, and p-p stacking interactions. We currently design new solid-state architectures resulting from the convolution of coordinative and non-covalent interactions. A special emphasis is given to systems containing two different metal ions, as well as to co-crystallization processes. An alternative way towards nanoporous crystals, resulting from the packing of discrete molecules, is discussed. Overall, the integration of various types of interactions—coordinative, hydrogen and halogen bonds, metallophilic, and π–π stacking—provides a versatile toolkit for the rational design of advanced crystalline materials. These materials hold great promise for a wide range of technological applications, from molecular electronics to environmental remediation.

    Asknowledgment: This study was performed within RO-MD Project: "Redox-active organic and metal-organic cages with azulene derivatives for crystalline engineering" (AZMETCA) Nr. PN-IV-P8-8.3-ROMD-2023-0045, and Moldovan National Project Nr. 010603.

    Keywords:

    building-blocks, crystalline, materials, solid-state; crystalline materials; solid-state architecture

    Cite this article as:

    Duca G and Andruh M. (2024). NON-COVALENT INTERACTIONS – USEFUL TOOLS IN CRYSTAL ENGINEERING. In F. Kongoli, I. Chung, H. Kageyama, M.G. Kanatzidis, F. Marquis, A. Navrotsky, A. Tressaud, J. Atwood, G. Duca, R. Kuroda, A. Legocki, J. Lipkowski, M. Zaworotko, R. Singh, R. Gupta, M. Halama, D. Macdonald, F. Wang (Eds.), Sustainable Industrial Processing Summit Volume 13 Intl. Symp on Solid State Chemistry, Physical Chemistry, Corrosion and Coating (pp. 127-128). Montreal, Canada: FLOGEN Star Outreach