Abstract: 2,1,3-Benzochalcogenadiazoles C6R4N2E (E/R; E=S, Se, Te; R=H, F, Cl, Br, I) and C6H2R2N2E (E/R’; E=S, Se, Te; R=Br, I) are 10π-electron hetarenes. By CV/EPR measurements, DFT calculations, and QTAIM and ELI-D analyses, it is shown that their molecular electron affinities (EAs) increase with decreasing Allen electronegativities and electron affinities of the E and non-hydrogen R (except Cl) atoms. DFT calculations for E/R+e⋅−→[E/R]⋅− electron capture reveal negative ΔG values numerically increasing with increasing atomic numbers of the E and R atoms; positive ΔS has a minor influence. It is suggested that the EA increase is caused by more effective charge/spin delocalization in the radical anions of heavier derivatives due to contributions from diffuse (a real-space expanded) p-AOs of the heavier E and R atoms; and that this counterintuitive effect might be of the general character.

Cite: Chulanova E.A. , Radiush E.A. , Semenov N.A. , Hupf E. , Irtegova I.G. , Kosenkova Y.S. , Bagryanskaya I.Y. , Shundrin L.A. , Beckmann J. , Zibarev A.V.
Tuning Molecular Electron Affinities against Atomic Electronegativities by Spatial Expansion of a π-System
ChemPhysChem. 2023. e202200876 :1-8. DOI: 10.1002/cphc.202200876 WOS РИНЦ OpenAlex

Dates:

Published print:	Jan 11, 2023
Published online:	Jan 20, 2023
Submitted:	Nov 23, 2023

Identifiers:

Web of science:	WOS:000936339500001
Elibrary:	60560494
OpenAlex:	W4317567975

Citing:

DB	Citing
OpenAlex	10
Web of science	11

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