Synthetic Access to a Pure Polyradical Architecture: Nucleophilic Insertion of Nitronyl Nitroxide on a Cyclotriphosphazene Scaffold

Ismail Fidan; Emel Önal; Yusuf Yerli; Dominique Luneau; Vefa Ahsen; Catherine Hirel

doi:10.1002/cplu.201700392

Synthetic Access to a Pure Polyradical Architecture: Nucleophilic Insertion of Nitronyl Nitroxide on a Cyclotriphosphazene Scaffold

Chempluschem. 2017 Dec;82(12):1384-1389. doi: 10.1002/cplu.201700392.

Authors

Ismail Fidan¹, Emel Önal¹, Yusuf Yerli², Dominique Luneau³, Vefa Ahsen¹, Catherine Hirel¹

Affiliations

¹ Gebze Technical University, Chemistry Department, 41400, Gebze Kocaeli, Turkey.
² Department of Physics, Faculty of Arts and Science, Yıldız Technical University, 34220, Istanbul, Turkey.
³ Université Claude Bernard Lyon 1, Laboratoire des Multimatériaux et Interfaces (UMR 5615), Campus de La Doua, 69622, Villeurbanne Cedex, France.

PMID: 31957233
DOI: 10.1002/cplu.201700392

Abstract

An optimized nucleophilic synthetic approach featuring mild conditions and microwave energy was utilized to circumvent the classical Ullman procedure and access a polynitronyl nitroxide radical easily and in pure form. The simultaneous controlled introduction of preformed nitronyl nitroxide radicals on a cyclotriphosphazene core leads to a novel polyphosphazene monomer which is suitable for both n- and a p-type redox-active material in organic rechargeable batteries as demonstrated by electrochemistry. Additionally, absorption spectra and square-wave voltammetry were utilized to quantify the number of nitronyl nitroxide radical units on the cyclotriphosphazene scaffold.

Keywords: cyclotriphosphazene; electrochemistry; nitronyl nitroxide; nucleophilic substitution; polyradicals.

Grants and funding

214Z267/the Scientific and Technological Research Council of Turkey