3-X-2(1H)-吡啶酮互变异构体系的理论计算

The geometries of 3 X 2(1H) pyridones(X=NO 2, NH 2, COOH) and their tautomers in the gas phase and DMSO solution(SCRF) have been obtained at HF/6 31G ** and MP2/6 31G ** levels. The influences of intramolecular hydrogen bond on the tautomeric equilibrium have also been investigated. In the gas phase, the calculated results show that the enol form is more stable than the keto form for 3 NO 2 2(1H) pyridone, and the ketoenol equilibrium shift right due to the formation of intramolecular hydrogen bond between 3 nitro and 2 hydroxyl group, while for the amino and carboxyl derivatives, the keto forms are favored over the enol forms because of the stronger intermolecular hydrogen bonds in keto tautomers. However, owing to the polarization effects of solvent, it can be predicted that the keto tautomers are dominant for all of the title compounds in DMSO solution, which are in good agreement with the experimental results.

吡啶鎓取代基效应的从头算研究

为寻找取代基效应与吡啶电子结构的关系 ,以吡啶钅翁—水复合体为模型 ,应用从头算 6-31G 基函数计算了 4 3个包括邻、间、对位三组吡啶钅翁化合物的电子结构 .结果得到 :( 1)取代基与吡啶环连接的原子的净电荷Qx1可描述取代基的共轭效应 ;( 2 )与邻、间位的取代基相邻的H原子净电荷 ,与对位取代吡啶N原子相邻的H原子净电荷可描述诱导 /场效应 ;( 3)

异核Au基电荷转移配合物的结构与Au-Rh配合物取代基效应和激发态的理论研究

采用SVWN、XαVWN和MP2方法优化了Au基电荷转移配合物[AuIMI(CNH)2(PH2CH2PH2)2]2+(M=Co(1),Rh(2)和Ir(3))的基态结构。计算表明3种方法都能描述Au-M弱相互作用(Au-M距离在0.268～0.302nm范围内,伸缩振动频率在99～139cm-1,键级在0.022～0.055),其中SVWN计算的金属间距离最接近实验值。在SVWN理论级别上优化了[AuⅠRhⅠ(CNR′)2(PR2CH2PR2)2]2+(R=H,R′=Me(2a)和tBu(2b);R=Me,R′=H(2c)以及Me(2d))以及[AuⅠMⅡ(CN)2(PH2CH2PH2)2]+(M=Ni(4),Pd(5)和Pt(6))的结构,验证了取代基近似和方法选择的合理性。单激发组态相互作用优化得到了2的最低能单重和三重激发态结构,波函数分析表明电子激发使得激发态的金属间距离相对基态缩短。通过多种TD-DFT(time-depen dentdensity functional theory)和溶剂化效应模型计算,预测2的荧光和磷光发射分别在2.26～2.82和1.83～1.66eV,与实验测得的2.48和2.03eV相对应。这些发射归属为σ*[dz2(Rh)-dz2-y2(Au)]→σ[spz(Au-Rh)](金属中心:MC)、dz2(Rh)→spz(Au)(金属到金属电荷转移:MMCT)以及金属到配体电荷转移(MLCT)跃迁的混合性质。