Tanaka Rikako, Okazawa Atsushi, Konaka Hisashi, Sasaki Akito, Kojima Norimichi, Matsushita Nobuyuki
Department of Basic Science, Graduate School of Arts and Sciences, The University of Tokyo , Komaba, Meguro-ku, Tokyo 153-8902, Japan.
XRD Application and Software Development Department, X-ray Instrument Division, Rigaku Corporation , Matsubara-cho, Akishima-shi, Tokyo 196-8666, Japan.
Inorg Chem. 2018 Feb 19;57(4):2209-2217. doi: 10.1021/acs.inorgchem.7b03100. Epub 2018 Feb 7.
We successfully prepared and crystallographically characterized the first intermolecular charge-transfer (CT)-based vapochromic compound, (EV)(HO)[Fe(CN)] (1-Wet, EV: 1,1'-diethyl-4,4'-bipyridine-1,1'-diium), an ethyl viologen-containing CT salt. 1-Wet, which is purple in color, is transformed into a brown powder (1-Dry) upon exposure to methanol vapor, drying over silica gel, or heating; 1-Dry returns to 1-Wet upon exposure to water vapor. These color changes are induced by hydration and dehydration, and gravimetric analyses suggest that 1-Dry is the dehydrated form of 1-Wet, namely, (EV)(H)[Fe(CN)]. Interestingly, desorption of water molecules from the oxonium ions in 1-Wet produces isolated protons (H) that remain in 1-Dry as counter cations. Powder X-ray crystal structure analysis of 1-Dry reveals the presence of very short contacts between the nitrogen atoms of adjacent [Fe(CN)] anions in the crystal. The isolated protons are trapped between the nitrogen atoms of cyanido ligands to form very short N···H···N hydrogen bonds. A detailed comparison of the crystal structures of 1-Wet and 1-Dry reveals that hydration and dehydration induce changes in crystal packing and intermolecular CT interactions, resulting in reversible color changes.
我们成功制备并通过晶体学表征了首个基于分子间电荷转移(CT)的气致变色化合物,(EV)(HO)[Fe(CN)](1-Wet,EV:1,1'-二乙基-4,4'-联吡啶-1,1'-二鎓),一种含乙基紫精的CT盐。1-Wet为紫色,在暴露于甲醇蒸汽、在硅胶上干燥或加热后会转变为棕色粉末(1-Dry);1-Dry在暴露于水蒸气后会变回1-Wet。这些颜色变化是由水合和脱水引起的,重量分析表明1-Dry是1-Wet的脱水形式,即(EV)(H)[Fe(CN)]。有趣的是,1-Wet中氧鎓离子上水分子的解吸产生了孤立的质子(H),这些质子作为抗衡阳离子保留在1-Dry中。1-Dry的粉末X射线晶体结构分析表明,晶体中相邻[Fe(CN)]阴离子的氮原子之间存在非常短的接触。孤立的质子被困在氰基配体的氮原子之间,形成非常短的N···H···N氢键。对1-Wet和1-Dry晶体结构的详细比较表明,水合和脱水会引起晶体堆积和分子间CT相互作用的变化,从而导致可逆的颜色变化。
