Bukalov Sergey S, Leites Larissa A, Lyssenko Konstantin A, Aysin Rinat R, Korlyukov Alexander A, Zubavichus Jan V, Chernichenko Konstantin Yu, Balenkova Elizabeth S, Nenajdenko Valentine G, Antipin Mikhail Yu
A. N. Nesmeyanov Institute of Organoelement Compounds, Russian Academy of Sciences, 28 Vavilova street, 119991 Moscow, Russia.
J Phys Chem A. 2008 Oct 30;112(43):10949-61. doi: 10.1021/jp806134u. Epub 2008 Oct 7.
Sublimation of sulflower, octathio[8]circulene C 16S 8 ( 1), on heating under high vacuum ( approximately 10 (-5) Torr) leads to successive formation of two modifications: a white film ( 1W) and a red polycrystalline solid ( 1R). When kept at room temperature for several weeks, 1W spontaneously turns pink, reflecting the monotropic phase transition 1W --> 1R. The accurate molecular and crystal structure of 1R has been studied using low-temperature (100 K) high-resolution single crystal X-ray analysis. The C 16S 8 molecule in crystal is strictly planar with nearly equalized bonds of each type (C-C, C-S, and CC). The point symmetry group of the free molecule is D 8 h , and the crystal space group is P2 1/ n. These data allowed group-theoretical analysis of vibrational normal modes to be accomplished. Investigation of the charge density distribution of 1R including Bader's AIM approach has revealed rather strong intermolecular S...S, S...C, and C...C interactions of charge transfer and pi-stacking types with overall lattice energy of 28.5 kcal/mol. The charge transfer due to the S...S interactions is the reason for the red coloration of 1R. The latter is reflected by its UV-vis spectrum exhibiting absorption bands in the visible region which are absent from that of 1W. Both modifications were studied comparatively by vibrational (Raman, IR) and electronic spectroscopies as well as XRD powder diffraction. All the results obtained are fully consistent and show that 1W is much less ordered than 1R with significantly weakened intermolecular interactions. Rationalizing of these results has led to an idea that 1W could be soluble, in contrast to 1R. Indeed, 1W appeared soluble in common solvents; this finding opens the way to the study of the chemistry of 1 and investigation of its electrooptical properties.
在高真空(约10⁻⁵托)下加热时,硫代花升华,八硫代[8]轮烯C₁₆S₈(1)会依次形成两种变体:白色薄膜(1W)和红色多晶固体(1R)。当在室温下放置数周时,1W会自发变成粉红色,这反映了单变的相转变1W→1R。已使用低温(100K)高分辨率单晶X射线分析研究了1R精确的分子和晶体结构。晶体中的C₁₆S₈分子严格呈平面状,每种类型的键(C-C、C-S和C-C)几乎均等。自由分子的点对称群为D₈h,晶体空间群为P2₁/n。这些数据使得能够完成振动正常模式的群论分析。包括巴德的AIM方法在内对1R电荷密度分布的研究揭示了相当强的分子间S...S、S...C和C...C电荷转移和π堆积类型的相互作用,总晶格能量为28.5千卡/摩尔。由于S...S相互作用导致的电荷转移是1R呈红色的原因。这一点通过其紫外可见光谱得到反映,该光谱在可见光区域呈现出吸收带,而1W的光谱中则没有这些吸收带。通过振动光谱(拉曼光谱、红外光谱)、电子光谱以及XRD粉末衍射对这两种变体进行了比较研究。所有获得的结果完全一致,表明1W的有序程度远低于1R,分子间相互作用明显减弱。对这些结果的合理解释引发了一种想法,即与1R不同,1W可能是可溶的。事实上,1W似乎可溶于常见溶剂;这一发现为研究1的化学性质及其电光性质开辟了道路。
