A high-spin s-triazine linked fluorenyl radical polymer

Hoa Phan; Tun Seng Herng; Hou Xudong; Linh Khanh Nguyen; Vinh The La; Chinh Dang Huynh; Jun Ding; Jishan Wu

doi:10.1039/d4ra03034f

A high-spin s-triazine linked fluorenyl radical polymer

RSC Adv. 2024 May 24;14(24):16945-16950. doi: 10.1039/d4ra03034f. eCollection 2024 May 22.

Authors

Hoa Phan¹, Tun Seng Herng², Hou Xudong³, Linh Khanh Nguyen¹, Vinh The La¹, Chinh Dang Huynh¹, Jun Ding², Jishan Wu³

Affiliations

¹ School of Chemistry and Life Science, Hanoi University of Science and Technology Hanoi Vietnam hoa.phanvan@hust.edu.vn.
² Department of Materials Science and Engineering, National University of Singapore 119260 Singapore Singapore.
³ Department of Chemistry, National University of Singapore 3 Science Drive 3 117543 Singapore Singapore chmwuj@nus.edu.sg.

Abstract

The syntheses of high-spin organic polymers have been a daunting task due to the highly reactive nature of organic radicals, especially when they are ferromagnetically coupled. In this paper, we report our approach to obtain high-spin organic polymers, in which a reasonably stable fluorenyl radical was employed as the primary radical unit, and s-triazine serves as the connector that facilitates ferromagnetic coupling between them. Initially, the diamagnetic polymer precursor was synthesized by cyclotrimerization of a cyano-monomer. Subsequently, the high-spin polymers were obtained by oxidizing corresponding anionic polymers using O₂ (6) or I₂ (7). The temperature-dependent magnetic moments, and field-dependent magnetization data obtained from SQUID measurements revealed ferromagnetic couplings between primary radical units, with coupling J = 7.5 cm^-1 and 38.6 cm^-1. The percentages of primary unit in the radical form are 29%, and 47% for 6 and 7, respectively. Notably, this marks the first reported instance of a high-spin fluorenyl radical polymer exhibiting ferromagnetic coupling.