出版社:Electronics and Telecommunications Research Institute
摘要:We performed nonlinear transmission measurements and quantum-chemical calculations on dithienothiophene(DTT)-based molecules to gain insight into the effect of acceptor and donor groups on two-photon absorption(TPA) properties. The TPA intensity showed dispersion characteristics of the single-photon absorption spectrum. When the molecules included an asymmetric donor-acceptor pair, the single- and two-photon absorption maximum wavelengths were red-shifted more than when the molecules had a symmetric donor-donor structure. We interpreted this result as indicating that the state plays the dominating role in the absorption process of molecules with a symmetric structure. The experimental TPA values at the absorption peak wavelength showed a dependence on the structural variations. We found the self-consistent force-field theory and Hartree-Fock Hamiltonian with single configuration interaction formalism to be valid for evaluating TPA . Although the quantum-chemical calculations slightly underestimated the experimental values obtained from nonlinear trans -mission measurements, they reasonably predicted the dependence of the value on the structural variations. We confirmed the role of molecular symmetry by observing that donor-donor substituted structure gave the highest experimental and theoretical TPA values and that the donor-acceptor substituted structure showed a greater red-shift in the TPA absorption maximum wavelength. Overall, the theoretical values of DTT-based molecules were in the order of and are higher than that of AF-50 by nearly two orders of magnitude.
