cis-Cyclodiphosph(v/v)azanes as highly stable and robust main group supramolecular building blocks
Cyclophosphazanes have been extensively studied over the past decades due to their topological flexibility and unique chemical versatility. However, their use in supramolecular chemistry and crystal engineering is still in its infancy. Here, we report the synthesis of cis-Se-oxidized cyclodiphosph(V...
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sg-ntu-dr.10356-1442182020-10-21T05:19:23Z cis-Cyclodiphosph(v/v)azanes as highly stable and robust main group supramolecular building blocks Tan, Davin Ng, Zi Xuan Sim, Ying Ganguly, Rakesh García, Felipe School of Physical and Mathematical Sciences Asian Commerce and Economic Studies Centre Engineering Bismuth Compounds Crystal Engineering Cyclophosphazanes have been extensively studied over the past decades due to their topological flexibility and unique chemical versatility. However, their use in supramolecular chemistry and crystal engineering is still in its infancy. Here, we report the synthesis of cis-Se-oxidized cyclodiphosph(V/V)azane 1 as a model cyclophosphazane compound and its use as supramolecular building blocks. The displayed cis-conformation, along with its tendency to adopt an exo, exo configuration of the terminal tert-butylamino substituents, enables the formation of highly reproducible supramolecular synthons via R21(8) bifurcated hydrogen bonds. Such bifurcated hydrogen bonds formed by the cyclodiphosphazane scaffold contain larger bite angles than those of their more well-known urea, thiourea and squaramide counterparts. We obtained five different solvate crystals as well as three different cocrystals that all contain similar hydrogen bonding motifs. In addition, we envisioned that the Se atoms in the oxidized cyclodiphosph(V/V)azane can act as halogen bond acceptors, and we were able to successfully obtain a cocrystal with 1,4-dibromo-tetrafluorobenzene, via the formation of P[double bond, length as m-dash]Se⋯Br halogen bonds. Such interaction had only been reported once before and warrants further exploration. Our results demonstrate the versatility and robustness of the cyclodiphosph(V/V)azane scaffold and highlights its potential as a prospective building block for creating reproducible supramolecular synthons for main group crystal engineering purposes. 2020-10-21T05:19:23Z 2020-10-21T05:19:23Z 2018 Journal Article Tan, D., Ng, Z. X., Sim, Y., Ganguly, R., & García, F. (2018). cis-Cyclodiphosph(v/v)azanes as highly stable and robust main group supramolecular building blocks. CrystEngComm, 20, 5998-–6004. doi:10.1039/C8CE00395E 1466-8033 https://hdl.handle.net/10356/144218 10.1039/C8CE00395E 20 5998 6004 en CrystEngComm © 2018 The Royal Society of Chemistry. All rights reserved. |
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Engineering Bismuth Compounds Crystal Engineering Tan, Davin Ng, Zi Xuan Sim, Ying Ganguly, Rakesh García, Felipe cis-Cyclodiphosph(v/v)azanes as highly stable and robust main group supramolecular building blocks |
| description |
Cyclophosphazanes have been extensively studied over the past decades due to their topological flexibility and unique chemical versatility. However, their use in supramolecular chemistry and crystal engineering is still in its infancy. Here, we report the synthesis of cis-Se-oxidized cyclodiphosph(V/V)azane 1 as a model cyclophosphazane compound and its use as supramolecular building blocks. The displayed cis-conformation, along with its tendency to adopt an exo, exo configuration of the terminal tert-butylamino substituents, enables the formation of highly reproducible supramolecular synthons via R21(8) bifurcated hydrogen bonds. Such bifurcated hydrogen bonds formed by the cyclodiphosphazane scaffold contain larger bite angles than those of their more well-known urea, thiourea and squaramide counterparts. We obtained five different solvate crystals as well as three different cocrystals that all contain similar hydrogen bonding motifs. In addition, we envisioned that the Se atoms in the oxidized cyclodiphosph(V/V)azane can act as halogen bond acceptors, and we were able to successfully obtain a cocrystal with 1,4-dibromo-tetrafluorobenzene, via the formation of P[double bond, length as m-dash]Se⋯Br halogen bonds. Such interaction had only been reported once before and warrants further exploration. Our results demonstrate the versatility and robustness of the cyclodiphosph(V/V)azane scaffold and highlights its potential as a prospective building block for creating reproducible supramolecular synthons for main group crystal engineering purposes. |
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School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Tan, Davin Ng, Zi Xuan Sim, Ying Ganguly, Rakesh García, Felipe |
| format |
Article |
| author |
Tan, Davin Ng, Zi Xuan Sim, Ying Ganguly, Rakesh García, Felipe |
| author_sort |
Tan, Davin |
| title |
cis-Cyclodiphosph(v/v)azanes as highly stable and robust main group supramolecular building blocks |
| title_short |
cis-Cyclodiphosph(v/v)azanes as highly stable and robust main group supramolecular building blocks |
| title_full |
cis-Cyclodiphosph(v/v)azanes as highly stable and robust main group supramolecular building blocks |
| title_fullStr |
cis-Cyclodiphosph(v/v)azanes as highly stable and robust main group supramolecular building blocks |
| title_full_unstemmed |
cis-Cyclodiphosph(v/v)azanes as highly stable and robust main group supramolecular building blocks |
| title_sort |
cis-cyclodiphosph(v/v)azanes as highly stable and robust main group supramolecular building blocks |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/144218 |
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1683492934406635520 |