Single Crystals Based on Hydrogen-Bonding Mediated Cation–Anion Assembly with Extremely Large Optical Nonlinearity and Their Application for Intense THz Wave Generation
New molecular salt crystals based on linear-shaped polymer-like cation–anion assembly exhibiting extremely large nonlinear optical response and high THz generation efficiency are reported. Two hydroxy benzothialzolium PMB (2-(4-(4-(hydroxymethyl)piperidin-1-yl)styryl)-3-methylbenzo[d]thiazol-3-ium) crystals with different benzenesulfonate counter anions provide isomorphic crystal structure with acentric monoclinic Cc space group symmetry. In contrast to previously reported benchmark nonlinear optical salt crystals with a parallel-type cation–anion assembly, newly developed PMB-based crystals exhibit a series-type cation–anion assembly mediated by strong bidentate-like hydrogen-bonds. Such series-type cation–anion assembly results in perfect alignment of highly nonlinear PMB cations in the crystalline state, leading to extremely large diagonal component of the second-order nonlinear optical coefficient exceeding that of the state-of-the-art nonlinear optical crystals. In THz wave generation experiments based on optical rectification, a 0.33 mm thick PMB crystal generates intense THz pulses with peak-to-peak THz electric field of 430 kV cm