Synthesis of unique phosphazane macrocycles via steric activation of C-N bonds

Synthesis of unique phosphazane macrocycles via steric activation of C-N bonds

Herein we describe that oxidation reactions of the dimeric cyclophosphazanes, [{P(μ-NR)}2(μ-NR)]2, R = tBu (1), to produce a series of diagonally dioxidized products P4(μ-N tBu)6E2 [E = O (2), S (3), and Se (4)] and tetraoxidized frameworks. The latter display an unexpected C-N bond activation and c...

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Main Authors: Shi, Xiaoyan, Martin, Katherine Ann, Liang, Rong Zheng, Star, Daniel G., Li, Yongxin, Ganguly, Rakesh, Sim, Ying, Tan, Davin, Díaz, Jesús, García, Felipe
Other Authors: School of Physical and Mathematical Sciences
Format: Article
Language:English
Published: 2020
Subjects:
Science::Chemistry
Group 16 Compounds
Bond Cleavage
Online Access:https://hdl.handle.net/10356/140059
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1400592020-05-26T06:04:59Z Synthesis of unique phosphazane macrocycles via steric activation of C-N bonds Shi, Xiaoyan Martin, Katherine Ann Liang, Rong Zheng Star, Daniel G. Li, Yongxin Ganguly, Rakesh Sim, Ying Tan, Davin Díaz, Jesús García, Felipe School of Physical and Mathematical Sciences Science::Chemistry Group 16 Compounds Bond Cleavage Herein we describe that oxidation reactions of the dimeric cyclophosphazanes, [{P(μ-NR)}2(μ-NR)]2, R = tBu (1), to produce a series of diagonally dioxidized products P4(μ-N tBu)6E2 [E = O (2), S (3), and Se (4)] and tetraoxidized frameworks. The latter display an unexpected C-N bond activation and cleavage to produce a series of novel phosphazane macrocyclic arrangements containing newly formed N-H bonds. Macromolecules P4(μ-N tBu)4(μ-NH)2O4 (5) and P4(μ-N tBu)3(μ-NH)3E4, E = S (6) and Se (7), dicleaved and tricleaved products, respectively, are rare examples of dimeric macrocycles containing NH bridging groups. Our theoretical and experimental studies illustrate that the extent to which these C-N bonds are cleaved can be controlled by modification of steric parameters in their synthesis, by adjusting either the steric bulk of the substituents in the parent framework or the size of the chalcogen element introduced during the oxidation process. Our findings represent new synthetic pathways for the synthesis of otherwise-elusive macrocycle arrangements within the phosphazane family. ASTAR (Agency for Sci., Tech. and Research, S’pore) MOE (Min. of Education, S’pore) 2020-05-26T06:04:59Z 2020-05-26T06:04:59Z 2018 Journal Article Shi, Y. X., Martin, K. A., Liang, R. Z., Star, D. G., Li, Y., Ganguly, R., . . . García, F. (2018). Synthesis of unique phosphazane macrocycles via steric activation of C-N bonds. Inorganic Chemistry, 57(17), 10993-11004. doi:10.1021/acs.inorgchem.8b01596 0020-1669 https://hdl.handle.net/10356/140059 10.1021/acs.inorgchem.8b01596 30125095 2-s2.0-85053041596 17 57 10993 11004 en Inorganic Chemistry © 2018 American Chemical Society. All rights reserved.
institution Nanyang Technological University
building NTU Library
country Singapore
collection DR-NTU
language English
topic Science::Chemistry
Group 16 Compounds
Bond Cleavage
spellingShingle Science::Chemistry
Group 16 Compounds
Bond Cleavage
Shi, Xiaoyan
Martin, Katherine Ann
Liang, Rong Zheng
Star, Daniel G.
Li, Yongxin
Ganguly, Rakesh
Sim, Ying
Tan, Davin
Díaz, Jesús
García, Felipe
Synthesis of unique phosphazane macrocycles via steric activation of C-N bonds
description Herein we describe that oxidation reactions of the dimeric cyclophosphazanes, [{P(μ-NR)}2(μ-NR)]2, R = tBu (1), to produce a series of diagonally dioxidized products P4(μ-N tBu)6E2 [E = O (2), S (3), and Se (4)] and tetraoxidized frameworks. The latter display an unexpected C-N bond activation and cleavage to produce a series of novel phosphazane macrocyclic arrangements containing newly formed N-H bonds. Macromolecules P4(μ-N tBu)4(μ-NH)2O4 (5) and P4(μ-N tBu)3(μ-NH)3E4, E = S (6) and Se (7), dicleaved and tricleaved products, respectively, are rare examples of dimeric macrocycles containing NH bridging groups. Our theoretical and experimental studies illustrate that the extent to which these C-N bonds are cleaved can be controlled by modification of steric parameters in their synthesis, by adjusting either the steric bulk of the substituents in the parent framework or the size of the chalcogen element introduced during the oxidation process. Our findings represent new synthetic pathways for the synthesis of otherwise-elusive macrocycle arrangements within the phosphazane family.
author2 School of Physical and Mathematical Sciences
author_facet School of Physical and Mathematical Sciences
Shi, Xiaoyan
Martin, Katherine Ann
Liang, Rong Zheng
Star, Daniel G.
Li, Yongxin
Ganguly, Rakesh
Sim, Ying
Tan, Davin
Díaz, Jesús
García, Felipe
format Article
author Shi, Xiaoyan
Martin, Katherine Ann
Liang, Rong Zheng
Star, Daniel G.
Li, Yongxin
Ganguly, Rakesh
Sim, Ying
Tan, Davin
Díaz, Jesús
García, Felipe
author_sort Shi, Xiaoyan
title Synthesis of unique phosphazane macrocycles via steric activation of C-N bonds
title_short Synthesis of unique phosphazane macrocycles via steric activation of C-N bonds
title_full Synthesis of unique phosphazane macrocycles via steric activation of C-N bonds
title_fullStr Synthesis of unique phosphazane macrocycles via steric activation of C-N bonds
title_full_unstemmed Synthesis of unique phosphazane macrocycles via steric activation of C-N bonds
title_sort synthesis of unique phosphazane macrocycles via steric activation of c-n bonds
publishDate 2020
url https://hdl.handle.net/10356/140059
_version_ 1681058084175216640

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