Electron‐Rich Aromatic 1,3‐Heterophospholes – Recent Syntheses and Impact of High Electron Density at σ<sup>2</sup>P on the Reactivity

Heinicke, Joachim

doi:10.1002/ejic.201500941

Cited by 23 publications

(3 citation statements)

References 197 publications

(167 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…have been described in the literature because azaphospholes have poor donor properties and easily enter into cycloaddition reactions . Possible candidates for the formation of complexes with organic π-acceptors could be electron-rich 1,3-azaphospholes with high electron density at σ 2 P . However, there is no evidence of such reactions.…”

Section: Introductionmentioning

confidence: 99%

Dual Reactivity of 3a,6a-Diaza-1,4-diphosphapentalene: π-Donor versus n-Donor

et al. 2020

View full text Add to dashboard Cite

Herein, we present the synthesis, single-crystal X-ray structures, and spectroscopic properties for the 1:1 donor−acceptor complexes of 1,2,4,5-tetracyanobenzene (TCNB) with annelated 3a,6a-diaza-1,4-diphosphapentalenes (DDPs) based on cyclohexanone azine (2) and tetralone azine (4). These are the first complexes of an organic π-acceptor with donor phosphorus heterocycles. According to the X-ray study, the DDPs and TCNB molecules are alternately stacked with interplanar distances of 3.335 and 3.404 Å for 2 and 4, respectively, which are suitable for intermolecular π•••π interactions. The bond lengths and angles in the component molecules agree with values for neutral species, and the infrared spectra indicate a very slight degree of ionicity. The estimated HOMO−LUMO gap from the onset of optical absorption (1.40 eV) is in agreement with the band gap estimated from the density functional theory calculations for 2 (1.47 eV). By contrast, in a reaction with the related electron acceptor, tetrachloroterephthalonitrile, the DDPs proved to be donors of lone electron pairs in a nucleophilic aromatic substitution reaction of chlorine atoms demonstrating the duality of their electronic nature.

show abstract

Section: Introductionmentioning

confidence: 99%

Dual Reactivity of 3a,6a-Diaza-1,4-diphosphapentalene: π-Donor versus n-Donor

et al. 2020

View full text Add to dashboard Cite

show abstract

“…The chemistry of various synthetically accessible aromatic heterocycles containing heavier Group 15 elements, insteado ft he "classical" nitrogen-based ones, is fairly dominated by the unsaturated organophosphorus compounds. [1][2][3][4][5] Despite recent progress involvingthe heavier congener arsenic, [6][7][8][9][10][11][12] many relatively trivial arsenic heterocycless till remain elusive despitee xhibiting remarkable physical-chemical properties. [1,13] For example,a nd in contrast to arsinine reported by Ashe [14] and 9arsaanthracene independently synthesized by Jutzi [15] and Bickelhaupt, [16] structurally characterized1-arsanaphthalenes (i.e.…”

mentioning

confidence: 99%

From a 2,1‐Benzazaarsole to Elusive 1‐Arsanaphthalenes in One Step

Kremláček

Erben

Jambor

et al. 2019

Chemistry A European J

View full text Add to dashboard Cite

show abstract

“…After early attempts with PhLi and EtLi failed to lithiate 11 (Me) or to add at the P=C bond of 1,2‐disubstituted benzazaphospholes in Et 2 O,[44a] no other RLi reagents than t BuLi were probed in the lithiation of these heterocycles. The recently found non‐polar conditions and substituent effects, favoring additions at their P=C‐bond,, might open ways to extend the scope of the addition route to other than P‐ tert ‐butyl‐substituted benzo‐fused phosphaprolines.…”

Section: Syntheses Of α‐Phosphanyl α‐Amino Acids and Mechanistic Aspectsmentioning

confidence: 99%

Chemistry of α‐Phosphanyl α‐Amino Acids

2018

Self Cite

View full text Add to dashboard Cite

After a short introduction on potential applications and types of phosphanyl-substituted α-amino acids the current knowledge on syntheses of acyclic and heterocyclic α-phosphanyl α-amino acids, their structural features, properties, reac-[a] and coordination compounds. Dmitry Yakhvarov is a specialist in phosphorus, physical, inorganic, coordination and organoelement chemistry, catalysis and electrochemistry. His main research interests are focused on the development of new technologies for the preparation of organophosphorus and organoelement compounds, including organometallics, by electrochemical methods based on the principles of "green chemistry". In 2016 he was awarded the honorary title of "Professor of the Russian Academy of Sciences". Joachim Heinicke studied chemistry at the Martin-Luther-University Halle and performed his PhD work under supervision of Prof. A. Tzschach. Continuing work in his group, he started besides contract research on high-purity doting compounds for electronic materials investigations on various amino-and hydroxy-functional As and P compounds, including heterocycles with dicoordinated As and P, stabilized by π-bonds. After habilitation this research was extended to silylenes and later also to germylenes and carbenes. Complex chemical and catalytic studies with o-hydroxyarylphosphanes were started after moving to the University Greifswald (1990 Docent, 1992 Professor), for some years in cooperation with Prof. Keim (Aachen). The change of the education focus to biochemistry led then to investigations on the α-phosphanyl amino acids, stimulated also by some early experiments in this direction. After retirement in 2012 he is still active to round off unpublished work. Eur. J. Inorg. Chem. 2019, 1507-1518

show abstract

Electron‐Rich Aromatic 1,3‐Heterophospholes – Recent Syntheses and Impact of High Electron Density at σ²P on the Reactivity

Cited by 23 publications

References 197 publications

Dual Reactivity of 3a,6a-Diaza-1,4-diphosphapentalene: π-Donor versus n-Donor

Dual Reactivity of 3a,6a-Diaza-1,4-diphosphapentalene: π-Donor versus n-Donor

From a 2,1‐Benzazaarsole to Elusive 1‐Arsanaphthalenes in One Step

Chemistry of α‐Phosphanyl α‐Amino Acids

Contact Info

Product

Resources

About

Electron‐Rich Aromatic 1,3‐Heterophospholes – Recent Syntheses and Impact of High Electron Density at σ2P on the Reactivity

Cited by 23 publications

References 197 publications

Dual Reactivity of 3a,6a-Diaza-1,4-diphosphapentalene: π-Donor versus n-Donor

Dual Reactivity of 3a,6a-Diaza-1,4-diphosphapentalene: π-Donor versus n-Donor

From a 2,1‐Benzazaarsole to Elusive 1‐Arsanaphthalenes in One Step

Chemistry of α‐Phosphanyl α‐Amino Acids

Contact Info

Product

Resources

About

Electron‐Rich Aromatic 1,3‐Heterophospholes – Recent Syntheses and Impact of High Electron Density at σ²P on the Reactivity