Two‐step Conformational Control of a Dibenzo Diazacyclooctane Derivative by Stepwise Protonation

The conformational control of a dibenzo‐1,5‐diazacyclooctane (DACO) derivative with tertiary and secondary amino groups by stepwise protonation is investigated by single crystal X‐ray diffraction analysis, computational simulation, and variable temperature NMR measurements. The DACO derivative under...

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Veröffentlicht in:	Asian journal of organic chemistry 2021-06, Vol.10 (6), p.1377-1381
Hauptverfasser:	Ishiwari, Fumitaka, Miyake, Sayuri, Inoue, Keiki, Hirose, Keiji, Fukushima, Takanori, Saeki, Akinori
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Sprache:	eng
Schlagworte:	conformational switching diazacyclooctane eight-membered ring ladder-shaped molecule NMR Nuclear magnetic resonance Organic chemistry Protonation ring flipping Ring structures Single crystals
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creator	Ishiwari, Fumitaka Miyake, Sayuri Inoue, Keiki Hirose, Keiji Fukushima, Takanori Saeki, Akinori
description	The conformational control of a dibenzo‐1,5‐diazacyclooctane (DACO) derivative with tertiary and secondary amino groups by stepwise protonation is investigated by single crystal X‐ray diffraction analysis, computational simulation, and variable temperature NMR measurements. The DACO derivative undergoes two‐step protonation, to afford bent‐shape monoprotonated and diprotonated species, whose conformations are different from each other. The monoprotonated form is characterized by a Tröger's‐base‐like proton‐bridged pseudo bicyclic structure, while the diprotonated form features a deformed boat‐shape eight membered ring structure. The degree of bending and conformational rigidity of the DACO skeleton become higher as the degree of the protonation is increased. Such a multistep conformational control of the DACO derivative would be useful for developing new stimuli‐responsive supramolecular systems that exhibit a multistep change in properties. Dibenzo‐1,5‐diazacyclooctane (DACO) derivative undergoes two‐step protonation, which first affords monoprotonated form with pseudo bicyclic structure, and second affords diprotonated form with a deformed boat‐shape structure. The degree of bending and conformational rigidity of the DACO become higher as the degree of the protonation is increased, suggesting that the DACO unit would be useful for developing multistep stimuli‐responsive systems.
doi_str_mv	10.1002/ajoc.202100154
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The DACO derivative undergoes two‐step protonation, to afford bent‐shape monoprotonated and diprotonated species, whose conformations are different from each other. The monoprotonated form is characterized by a Tröger's‐base‐like proton‐bridged pseudo bicyclic structure, while the diprotonated form features a deformed boat‐shape eight membered ring structure. The degree of bending and conformational rigidity of the DACO skeleton become higher as the degree of the protonation is increased. Such a multistep conformational control of the DACO derivative would be useful for developing new stimuli‐responsive supramolecular systems that exhibit a multistep change in properties. Dibenzo‐1,5‐diazacyclooctane (DACO) derivative undergoes two‐step protonation, which first affords monoprotonated form with pseudo bicyclic structure, and second affords diprotonated form with a deformed boat‐shape structure. 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The DACO derivative undergoes two‐step protonation, to afford bent‐shape monoprotonated and diprotonated species, whose conformations are different from each other. The monoprotonated form is characterized by a Tröger's‐base‐like proton‐bridged pseudo bicyclic structure, while the diprotonated form features a deformed boat‐shape eight membered ring structure. The degree of bending and conformational rigidity of the DACO skeleton become higher as the degree of the protonation is increased. Such a multistep conformational control of the DACO derivative would be useful for developing new stimuli‐responsive supramolecular systems that exhibit a multistep change in properties. Dibenzo‐1,5‐diazacyclooctane (DACO) derivative undergoes two‐step protonation, which first affords monoprotonated form with pseudo bicyclic structure, and second affords diprotonated form with a deformed boat‐shape structure. 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subjects	conformational switching diazacyclooctane eight-membered ring ladder-shaped molecule NMR Nuclear magnetic resonance Organic chemistry Protonation ring flipping Ring structures Single crystals
title	Two‐step Conformational Control of a Dibenzo Diazacyclooctane Derivative by Stepwise Protonation
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