Constrained-Geometry Bisphosphazides Derived from 1,8-Diazidonaphthalene: Synthesis, Spectroscopic Characteristics, Structural Features, and Theoretical Investigations

Investigations on the Staudinger reaction between 1,8‐diazidonaphthalene and phosphorous(III) building blocks, a key step in the synthesis of superbasic bisphosphazene proton sponges, yielded a set of bisphosphazides with a constrained geometry 1,8‐disubstituted naphthalene backbone. This compound c...

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Veröffentlicht in:	Chemistry : a European journal 2014-05, Vol.20 (20), p.5994-6009
Hauptverfasser:	Kögel, Julius F., Abacılar, Nuri C., Weber, Felicia, Oelkers, Benjamin, Harms, Klaus, Kovačević, Borislav, Sundermeyer, Jörg
Format:	Artikel
Sprache:	eng
Schlagworte:	ab initio calculations Backbone basicity Bearing Chemistry Constraints Lewis acid ligands Naphthalene Nitrogen atoms phosphazenes reaction mechanisms Spectroscopy Synthesis (chemistry)
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container_title	Chemistry : a European journal
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creator	Kögel, Julius F. Abacılar, Nuri C. Weber, Felicia Oelkers, Benjamin Harms, Klaus Kovačević, Borislav Sundermeyer, Jörg
description	Investigations on the Staudinger reaction between 1,8‐diazidonaphthalene and phosphorous(III) building blocks, a key step in the synthesis of superbasic bisphosphazene proton sponges, yielded a set of bisphosphazides with a constrained geometry 1,8‐disubstituted naphthalene backbone. This compound class has attracted our interest not only due to their surprisingly high stability, but in particular because of their theoretically predicted basicity in the range of their bisphosphazene analogues that can be referred to the constrained geometry interaction of two highly basic nitrogen atoms. Eleven new bisphosphazides bearing simple P‐amino groups as well as P‐guanidino substituents, azaphosphatrane moieties, P2 building blocks, or chiral P‐amino substituents derived from L‐proline are presented. They were studied concerning their spectroscopic properties and partly also their chromophoric and structural features. In the case of the pyrrolidino‐substituted TPPN(2N2) (TPPN=1,8‐bis(trispyrrolidinophosphazenyl)naphthalene), the stepwise nitrogen elimination is investigated theoretically and experimentally, which led to the isolation and structural characterization of TPPN(1N2) bearing a phosphazide and a phosphazene functionality in one molecule. Attempts to protonate the obtained bisphosphazides and to prove the computationally predicted pKBH+ values through NMR titration reactions resulted in their decay, which again was rationalized by theoretical calculations. Altogether we present the so far most extensive spectroscopic, structural and theoretical investigation of constrained geometry bisphosphazides and their Brønsted and Lewis basic properties. New bisphosphazides with a rigid naphthalene scaffold show different binding sites for proton and Lewis acids, opening up interesting perspectives in coordination chemistry and organocatalysis (see figure).
doi_str_mv	10.1002/chem.201304498
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Attempts to protonate the obtained bisphosphazides and to prove the computationally predicted pKBH+ values through NMR titration reactions resulted in their decay, which again was rationalized by theoretical calculations. Altogether we present the so far most extensive spectroscopic, structural and theoretical investigation of constrained geometry bisphosphazides and their Brønsted and Lewis basic properties. 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Eur. J</addtitle><description>Investigations on the Staudinger reaction between 1,8‐diazidonaphthalene and phosphorous(III) building blocks, a key step in the synthesis of superbasic bisphosphazene proton sponges, yielded a set of bisphosphazides with a constrained geometry 1,8‐disubstituted naphthalene backbone. This compound class has attracted our interest not only due to their surprisingly high stability, but in particular because of their theoretically predicted basicity in the range of their bisphosphazene analogues that can be referred to the constrained geometry interaction of two highly basic nitrogen atoms. Eleven new bisphosphazides bearing simple P‐amino groups as well as P‐guanidino substituents, azaphosphatrane moieties, P2 building blocks, or chiral P‐amino substituents derived from L‐proline are presented. They were studied concerning their spectroscopic properties and partly also their chromophoric and structural features. 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Eur. J</addtitle><date>2014-05-12</date><risdate>2014</risdate><volume>20</volume><issue>20</issue><spage>5994</spage><epage>6009</epage><pages>5994-6009</pages><issn>0947-6539</issn><eissn>1521-3765</eissn><coden>CEUJED</coden><abstract>Investigations on the Staudinger reaction between 1,8‐diazidonaphthalene and phosphorous(III) building blocks, a key step in the synthesis of superbasic bisphosphazene proton sponges, yielded a set of bisphosphazides with a constrained geometry 1,8‐disubstituted naphthalene backbone. This compound class has attracted our interest not only due to their surprisingly high stability, but in particular because of their theoretically predicted basicity in the range of their bisphosphazene analogues that can be referred to the constrained geometry interaction of two highly basic nitrogen atoms. Eleven new bisphosphazides bearing simple P‐amino groups as well as P‐guanidino substituents, azaphosphatrane moieties, P2 building blocks, or chiral P‐amino substituents derived from L‐proline are presented. They were studied concerning their spectroscopic properties and partly also their chromophoric and structural features. In the case of the pyrrolidino‐substituted TPPN(2N2) (TPPN=1,8‐bis(trispyrrolidinophosphazenyl)naphthalene), the stepwise nitrogen elimination is investigated theoretically and experimentally, which led to the isolation and structural characterization of TPPN(1N2) bearing a phosphazide and a phosphazene functionality in one molecule. Attempts to protonate the obtained bisphosphazides and to prove the computationally predicted pKBH+ values through NMR titration reactions resulted in their decay, which again was rationalized by theoretical calculations. Altogether we present the so far most extensive spectroscopic, structural and theoretical investigation of constrained geometry bisphosphazides and their Brønsted and Lewis basic properties. New bisphosphazides with a rigid naphthalene scaffold show different binding sites for proton and Lewis acids, opening up interesting perspectives in coordination chemistry and organocatalysis (see figure).</abstract><cop>Weinheim</cop><pub>WILEY-VCH Verlag</pub><pmid>24687589</pmid><doi>10.1002/chem.201304498</doi><tpages>16</tpages></addata></record>
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subjects	ab initio calculations Backbone basicity Bearing Chemistry Constraints Lewis acid ligands Naphthalene Nitrogen atoms phosphazenes reaction mechanisms Spectroscopy Synthesis (chemistry)
title	Constrained-Geometry Bisphosphazides Derived from 1,8-Diazidonaphthalene: Synthesis, Spectroscopic Characteristics, Structural Features, and Theoretical Investigations
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