Controlling of spectral and optical parameters of the F8T2 liquid–crystalline polymer (LCP) by molarity for optoelectronic devices

Abstract

In here, spectral and optical properties of the F8T2 polymer for different molarities were investigated by solution technique for optoelectronic applications. The interesting and useful results were obtained for optoelectronic applications. The absorption band of F8T2 polymer exhibits a vibronic structure with two peaks at 288 and 453nm due to π–π* electronic transition. The electronic spectra of the F8T2 can be characterized visible (Q) band and Soret (B) band. The significant spectral parameters such as absorption coefficient, molar extinction coefficient, mass extinction coefficients, electric dipole line strength and oscillator strength of the F8T2 polymer were calculated. The direct allowed band gap (Egd) and indirect allowed band gap (Egid) values (2.230 and 2.251eV, respectively) of the F8T2 polymer for 1.200μM are the highest values, while the Egd and Egid values (1.723 and 2.033eV, respectively) of the F8T2 for 9.460μM are the lowest values. The Egd values of the F8T2 polymer are lower than the Egid values. The real part of dielectric constant of the F8T2 polymer is composed normal and anomalous dispersion regions. F8T2 polymer can be used in the fabrication of many optoelectronic devices due to good soluble, spectral and optical properties.