Probing the Electron Accepting Ability of Phosphaphenalenes.
Peng ZhaoQiuming LiangChaopeng HuYa-Fei JiangXiao-Yong ChangLili WangYanbo MeiZheng DuanPublished in: Chemistry (Weinheim an der Bergstrasse, Germany) (2024)
Phosphaphenalenes, extended π conjugates with the incorporation of phosphorus, are attractive avenues towards molecular materials for the applications in organic electronics, but their electron accepting ability have not been investigated. Herein we present systematic studies on the reductive behavior of a representative phosphaphenalene and its oxide by chemical and electrochemical methods. The chemical reduction of the phosphaphenalene by alkali metals reveals the facile P-C bond cleavage to form phosphaphenalenide anion, which functions as a transfer block for structure modification on the phosphorus atom. In contrast, the pentavalent P-oxide reacts with one or two equivalents of elemental sodium to form stable radical anion and dianion salts, respectively.
Keyphrases
- ionic liquid
- electron transfer
- sewage sludge
- single molecule
- magnetic resonance
- solar cells
- atomic force microscopy
- quantum dots
- gold nanoparticles
- human health
- dna binding
- cancer therapy
- molecular dynamics simulations
- highly efficient
- cross sectional
- magnetic resonance imaging
- case control
- metal organic framework
- climate change
- label free
- transcription factor
- high speed
- oxide nanoparticles