Department of Chemistry and Biochemistry, University of California at Los Angeles, Los Angeles, California 90095-1569, United States.
J Am Chem Soc. 2013 Jul 17;135(28):10388-95. doi: 10.1021/ja4024463. Epub 2013 Jul 8.
The synthesis, crystallization, single crystal X-ray structure, and solid state dynamics of molecular rotor 3 provided with a high symmetry order and relatively cylindrical bicyclo[2.2.2]octane (BCO) rotator linked to mestranol fragments were investigated in this work. By use of solid state (13)C NMR, three rotating fragments were identified within the molecule: the BCO, the C19 methoxy and the C18 methyl groups. To determine the dynamics of the BCO group in crystals of 3 by variable temperature (1)H spin-lattice relaxation (VT (1)H T1), we determined the (1)H T1 contributions from the methoxy group C19 by carrying out measurements with the methoxy-deuterated isotopologue rotor 3-d6. The contributions from the quaternary methyl group C18 were estimated by considering the differences between the VT (1)H T1 of mestranol 8 and methoxy-deuterated mestranol 8-d3. From these studies it was determined that the BCO rotator in 3 has an activation energy of only 1.15 kcal mol(-1), with a barrier for site exchange that is smaller than those of methyl (E(a) = 1.35 kcal mol(-1)) and methoxy groups (E(a) = 1.92 kcal mol(-1)), despite their smaller moments of inertia and surface areas.
这项工作研究了具有高对称序和相对圆柱形双环[2.2.2]辛烷(BCO)转子的分子转子 3 的合成、结晶、单晶 X 射线结构和固态动力学,该转子与炔雌醇片段相连。通过使用固态(13)C NMR,在分子中鉴定出三个旋转片段:BCO、C19 甲氧基和 C18 甲基。为了通过变温(1)H 自旋晶格弛豫(VT(1)H T1)确定 3 晶体中 BCO 基团的动力学,我们通过对甲氧基氘代同系物转子 3-d6 进行测量来确定 C19 甲氧基的(1)H T1 贡献。通过考虑炔雌醇 8 和甲氧基氘代炔雌醇 8-d3 的 VT(1)H T1 之间的差异,估计了季碳原子 C18 的贡献。从这些研究中可以确定,3 中的 BCO 转子的活化能仅为 1.15 kcal mol(-1),位交换的势垒小于甲基(E(a) = 1.35 kcal mol(-1))和甲氧基(E(a) = 1.92 kcal mol(-1))的势垒,尽管它们的转动惯量和表面积较小。