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Molecular Weight-Dependent Oxidation and Optoelectronic Properties of Defect-Free Macrocyclic Poly(3-hexylthiophene)

Authors :
Sato, Ryohei
Utagawa, Atsuo
1000020271645
Fushimi, Koji
Li, Feng
Isono, Takuya
1000000271643
Tajima, Kenji
1000080291235
Satoh, Toshifumi
1000010262601
Sato, Shin-ichiro
1000060250958
Hirata, Hiroshi
Kikkawa, Yoshihiro
1000030525986
Yamamoto, Takuya
Sato, Ryohei
Utagawa, Atsuo
1000020271645
Fushimi, Koji
Li, Feng
Isono, Takuya
1000000271643
Tajima, Kenji
1000080291235
Satoh, Toshifumi
1000010262601
Sato, Shin-ichiro
1000060250958
Hirata, Hiroshi
Kikkawa, Yoshihiro
1000030525986
Yamamoto, Takuya
Publication Year :
2023

Abstract

The redox behaviors of macrocyclic molecules with an entirely pi-conjugated system are of interest due to their unique optical, electronic, and magnetic properties. In this study, defect-free cyclic P3HT with a degree of polymerization (DPn) from 14 to 43 was synthesized based on our previously established method, and its unique redox behaviors arising from the cyclic topology were investigated. Cyclic voltammetry (CV) showed that the HOMO level of cyclic P3HT decreases from -4.86 eV (14 mer) to -4.89 eV (43 mer), in contrast to the linear counterparts increasing from -4.94 eV (14 mer) to -4.91 eV (43 mer). During the CV measurement, linear P3HT suffered from electro-oxidation at the chain ends, while cyclic P3HT was stable. ESR and UV-Vis-NIR spectroscopy suggested that cyclic P3HT has stronger dicationic properties due to the interactions between the polarons. On the other hand, linear P3HT showed characteristics of polaron pairs with multiple isolated polarons. Moreover, the dicationic properties of cyclic P3HT were more pronounced for the smaller macrocycles.

Details

Database :
OAIster
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1375175772
Document Type :
Electronic Resource