单取代烷烃生成焓的定量估算式与键能的定量估算式中存在相同的电子效应参数,可推断出把电子效应参数作为桥梁,找出单取代烷烃生成焓与其键能之间的定量关系,建立利用生成焓值来确定其键能的新方法.本文用74个单取代烷烃的生成焓ΔfHθ(...单取代烷烃生成焓的定量估算式与键能的定量估算式中存在相同的电子效应参数,可推断出把电子效应参数作为桥梁,找出单取代烷烃生成焓与其键能之间的定量关系,建立利用生成焓值来确定其键能的新方法.本文用74个单取代烷烃的生成焓ΔfHθ(R—X)结合BDE(X—Me)、NC、h[X]、PEI(R)和ΔPEI(R)对其键能BDE(X─R)实验值进行回归分析,所得回归方程有良好的相关性,相关系数达0.999 9,实验值与计算值之间的平均绝对误差仅3.47 k J,落在实验误差范围内.进而用留一法对其稳定性和预测能力进行验证(R_(CV)=0.999 9),结果表明利用单取代烷烃生成焓建立的键能估算模型是合理并且有效的.本文将看上去相差甚远的两种物理化学性能(键能和生成焓)从理论上探索了它们之间的内在联系,为从同一分子结构基础上理解不同性能之间的联系提供了新的视角和方法.展开更多
The quest for innovative hydrogen-bond donor(HBD)catalysts has led to a significant advancement in the field of organic synthesis.Considering the electron-withdrawing strength of imidazolium cations and the spatial re...The quest for innovative hydrogen-bond donor(HBD)catalysts has led to a significant advancement in the field of organic synthesis.Considering the electron-withdrawing strength of imidazolium cations and the spatial requirements of hydrogen bond donors,a novel HBD catalyst based on the 1,1'-methylenediimidazolium scaffold by bridging two imidazolium cations with methylene was developed.The 1,1'-methylenediimidazolium-based catalysts exhibit excellent performance in the cycloaddition reaction of CO_(2) and epoxides,achieving up to 99% yield and 99%selectivity under mild conditions(atmospheric pressure,80℃ for 12 h,with 1 mol%catalyst).The geometric structure,atomic charge distribution,and synergistic effect of HBD catalysts were studied in detail through 1H NMR spectroscopy and density functional theory(DFT)calculations.The research results indicate that the protons at positions C2-H,C2'-H,C5-H,and C5'-H on the imidazolium rings,as well as the protons on the bridged methylene,contribute to the formation of multiple hydrogen bonds with appropriate distance and synergistic effects,which are crucial for activating CO_(2) and epoxides.This research highlights the distinctive attributes of 1,1'-methylenediimidazolium-based catalysts and offers valuable insights into the development of highly efficient multiple HBD catalysts.展开更多
文摘单取代烷烃生成焓的定量估算式与键能的定量估算式中存在相同的电子效应参数,可推断出把电子效应参数作为桥梁,找出单取代烷烃生成焓与其键能之间的定量关系,建立利用生成焓值来确定其键能的新方法.本文用74个单取代烷烃的生成焓ΔfHθ(R—X)结合BDE(X—Me)、NC、h[X]、PEI(R)和ΔPEI(R)对其键能BDE(X─R)实验值进行回归分析,所得回归方程有良好的相关性,相关系数达0.999 9,实验值与计算值之间的平均绝对误差仅3.47 k J,落在实验误差范围内.进而用留一法对其稳定性和预测能力进行验证(R_(CV)=0.999 9),结果表明利用单取代烷烃生成焓建立的键能估算模型是合理并且有效的.本文将看上去相差甚远的两种物理化学性能(键能和生成焓)从理论上探索了它们之间的内在联系,为从同一分子结构基础上理解不同性能之间的联系提供了新的视角和方法.
文摘The quest for innovative hydrogen-bond donor(HBD)catalysts has led to a significant advancement in the field of organic synthesis.Considering the electron-withdrawing strength of imidazolium cations and the spatial requirements of hydrogen bond donors,a novel HBD catalyst based on the 1,1'-methylenediimidazolium scaffold by bridging two imidazolium cations with methylene was developed.The 1,1'-methylenediimidazolium-based catalysts exhibit excellent performance in the cycloaddition reaction of CO_(2) and epoxides,achieving up to 99% yield and 99%selectivity under mild conditions(atmospheric pressure,80℃ for 12 h,with 1 mol%catalyst).The geometric structure,atomic charge distribution,and synergistic effect of HBD catalysts were studied in detail through 1H NMR spectroscopy and density functional theory(DFT)calculations.The research results indicate that the protons at positions C2-H,C2'-H,C5-H,and C5'-H on the imidazolium rings,as well as the protons on the bridged methylene,contribute to the formation of multiple hydrogen bonds with appropriate distance and synergistic effects,which are crucial for activating CO_(2) and epoxides.This research highlights the distinctive attributes of 1,1'-methylenediimidazolium-based catalysts and offers valuable insights into the development of highly efficient multiple HBD catalysts.
