Influence of the heteroatom on the optoelectronic properties and transistor performance of soluble thiophene-, selenophene- and tellurophene-vinylene copolymers

Mohammed Al-Hashimi; Yang Han; Jeremy Smith; Hassan S Bazzi; Siham Yousuf A Alqaradawi; Scott E Watkins; Thomas D Anthopoulos; Martin Heeney

doi:10.1039/c5sc03501e

Influence of the heteroatom on the optoelectronic properties and transistor performance of soluble thiophene-, selenophene- and tellurophene-vinylene copolymers

Chem Sci. 2016 Feb 1;7(2):1093-1099. doi: 10.1039/c5sc03501e. Epub 2015 Nov 2.

Authors

Mohammed Al-Hashimi^{1

2}, Yang Han^{1

3}, Jeremy Smith³, Hassan S Bazzi², Siham Yousuf A Alqaradawi⁴, Scott E Watkins⁵, Thomas D Anthopoulos³, Martin Heeney¹

Affiliations

¹ Dept. Chemistry and Centre for Plastic Electronics , Imperial College London , Exhibition Rd , London , SW7 2AZ , UK . Email: m.heeney@imperial.ac.uk.
² Dept. Chemistry , Texas A&M University at Qatar , P.O. Box 23874 , Doha , Qatar . Email: mohammed.al-hashimi@qatar.tamu.edu.
³ Dept. Physics and Centre for Plastic Electronics , Imperial College London , Exhibition Rd , London , SW7 2AZ , UK.
⁴ Dept. of Chemistry & Earth Sciences , Qatar University , P.O. Box 110003 , Doha , Qatar.
⁵ CSIRO , Molecular and Health Technologies , VIC 3169 , Australia.

Abstract

We report the first soluble poly(3-dodecyl tellurophenylene-vinylene) polymer (P3TeV) by Stille copolymerization and compare its properties to the analogous thiophene and selenophene containing polymers. The optical band gap of the polymers is shown to systematically decrease as the size of the heteroatom is increased, mainly as a result of a stabilization of the LUMO energy, resulting in a small band gap of 1.4 eV for P3TeV. Field effect transistors measurements in variety of architectures demonstrate that the selenophene polymer exhibits the highest mobility, highlighting that increasing the size of the heteroatom is not always beneficial for charge transport.