Mechanosynthesis of higher-order cocrystals: tuning order, functionality and size in cocrystal design
The ability to rationally design and predictably construct crystalline solids has been the hallmark of crystal engineering research. To date, numerous examples of multicomponent crystals comprising organic molecules have been reported. However, the crystal engineering of cocrystals comprising both o...
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sg-ntu-dr.10356-1628782023-02-28T20:10:31Z Mechanosynthesis of higher-order cocrystals: tuning order, functionality and size in cocrystal design Ng, Zi Xuan Tan, Davin Teo, Wei Liang León, Felix Shi, Xiaoyan Sim, Ying Li, Yongxin Ganguly, Rakesh Zhao, Yanli Mohamed, Sharmarke García, Felipe School of Physical and Mathematical Sciences Science::Chemistry Density Functional Theory Phosphazanes The ability to rationally design and predictably construct crystalline solids has been the hallmark of crystal engineering research. To date, numerous examples of multicomponent crystals comprising organic molecules have been reported. However, the crystal engineering of cocrystals comprising both organic and inorganic chemical units is still poorly understood and mostly unexplored. Here, we report a new diverse set of higher-order cocrystals (HOCs) based on the structurally versatile-yet largely unexplored-phosph(V/V)azane heterosynthon building block. The novel ternary and quaternary cocrystals reported are held together by synergistic and orthogonal intermolecular interactions. Notably, the HOCs can be readily obtained either via sequential or one-pot mechanochemical methods. Computational modelling methods reveal that the HOCs are thermodynamically driven to form and that their mechanical properties strongly depend on the composition and intermolecular forces in the crystal, offering untapped potential for optimizing material properties. Agency for Science, Technology and Research (A*STAR) Nanyang Technological University Published version F.G. thanks A*STAR AME IRG (A1783c0003 and A2083c0050) and a NTU SUG (M4080552) for financial support. S.M. acknowledges Khalifa University for financial support under the CIRA program (Project Code: CIRA2018-068). The theoretical calculations were performed using the high-performance computing clusters of Khalifa University and the authors would like to acknowledge the support of the research computing department. 2022-11-11T06:12:05Z 2022-11-11T06:12:05Z 2021 Journal Article Ng, Z. X., Tan, D., Teo, W. L., León, F., Shi, X., Sim, Y., Li, Y., Ganguly, R., Zhao, Y., Mohamed, S. & García, F. (2021). Mechanosynthesis of higher-order cocrystals: tuning order, functionality and size in cocrystal design. Angewandte Chemie International Edition, 60(32), 17481-17490. https://dx.doi.org/10.1002/anie.202101248 1433-7851 https://hdl.handle.net/10356/162878 10.1002/anie.202101248 33982390 2-s2.0-85109038055 32 60 17481 17490 en A1783c0003 A2083c0050 M4080552 Angewandte Chemie International Edition © 2021 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. application/pdf |
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Science::Chemistry Density Functional Theory Phosphazanes |
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Science::Chemistry Density Functional Theory Phosphazanes Ng, Zi Xuan Tan, Davin Teo, Wei Liang León, Felix Shi, Xiaoyan Sim, Ying Li, Yongxin Ganguly, Rakesh Zhao, Yanli Mohamed, Sharmarke García, Felipe Mechanosynthesis of higher-order cocrystals: tuning order, functionality and size in cocrystal design |
| description |
The ability to rationally design and predictably construct crystalline solids has been the hallmark of crystal engineering research. To date, numerous examples of multicomponent crystals comprising organic molecules have been reported. However, the crystal engineering of cocrystals comprising both organic and inorganic chemical units is still poorly understood and mostly unexplored. Here, we report a new diverse set of higher-order cocrystals (HOCs) based on the structurally versatile-yet largely unexplored-phosph(V/V)azane heterosynthon building block. The novel ternary and quaternary cocrystals reported are held together by synergistic and orthogonal intermolecular interactions. Notably, the HOCs can be readily obtained either via sequential or one-pot mechanochemical methods. Computational modelling methods reveal that the HOCs are thermodynamically driven to form and that their mechanical properties strongly depend on the composition and intermolecular forces in the crystal, offering untapped potential for optimizing material properties. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Ng, Zi Xuan Tan, Davin Teo, Wei Liang León, Felix Shi, Xiaoyan Sim, Ying Li, Yongxin Ganguly, Rakesh Zhao, Yanli Mohamed, Sharmarke García, Felipe |
| format |
Article |
| author |
Ng, Zi Xuan Tan, Davin Teo, Wei Liang León, Felix Shi, Xiaoyan Sim, Ying Li, Yongxin Ganguly, Rakesh Zhao, Yanli Mohamed, Sharmarke García, Felipe |
| author_sort |
Ng, Zi Xuan |
| title |
Mechanosynthesis of higher-order cocrystals: tuning order, functionality and size in cocrystal design |
| title_short |
Mechanosynthesis of higher-order cocrystals: tuning order, functionality and size in cocrystal design |
| title_full |
Mechanosynthesis of higher-order cocrystals: tuning order, functionality and size in cocrystal design |
| title_fullStr |
Mechanosynthesis of higher-order cocrystals: tuning order, functionality and size in cocrystal design |
| title_full_unstemmed |
Mechanosynthesis of higher-order cocrystals: tuning order, functionality and size in cocrystal design |
| title_sort |
mechanosynthesis of higher-order cocrystals: tuning order, functionality and size in cocrystal design |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/162878 |
| _version_ |
1759853806542127104 |