Nonsymmetric 2-aryl (benz)imidazole derivatives were previously synthesized via C-H/N-H annulation of imidazole derivatives from lapachol moieties with internal alkynes as an efficient tool to increase the π-system of lapimidazole derivatives. To investigate their photophysical properties, time-resolved and steady-state fluorescence measurements were carried out on dropcast film, powder, and diluted solution. Despite having the same number of single and double bonds, slight differences in their structures lead to distinct photophysical properties. The time-correlated single-photon counting measurements also demonstrated that the aspects of the temporal decay curves are dependent on the treatment of the samples during the measurements. The decay curves were relatively well fitted using an alternative method based on the exponentially modified Gaussian function, giving rise to a more complete set of fitting parameters. Finally, theoretical calculations corroborate that small structural changes in molecules can significantly alter their conformational dynamics, electronic spectra, and overall electronic behavior and stability.