利用Cluster-Continuum Solvation Model探...
國立高雄大學應用化學系碩士班

 

  • 利用Cluster-Continuum Solvation Model探討Diels-Alder反應之溶劑效應 = Study Diels-Alder Reaction in Solution with Cluster-Continuum Solvation Model
  • 紀錄類型: 書目-語言資料,印刷品 : 單行本
    並列題名: Study Diels-Alder Reaction in Solution with Cluster-Continuum Solvation Model
    作者: 張怡真,
    其他團體作者: 國立高雄大學
    出版地: [高雄市]
    出版者: 撰者;
    出版年: [民99]2010
    面頁冊數: 110面圖,表 : 30公分;
    標題: 溶劑模型
    標題: solvation model
    電子資源: http://handle.ncl.edu.tw/11296/ndltd/69141775459388072318
    摘要註: 本論文主要利用混合密度泛函理論(Hybrid Density Functional Theory,簡稱HDFT),配合三種溶劑模型(Cluster、Continuum及Cluster-Continuum Solvation Model),計算甲基乙烯基酮(Methyl Vinyl Ketone,簡稱MVK)與環戊二烯(Cyclopetadiene,簡稱CP) Diels-Alder反應於氣相及不同溶劑中能量變化情形,以便了解反應受溶劑效應(Solvent effect)影響,而產生的活化能下降和反應速率常數提升之情形。 計算發現,使用Cluster及Continuum Solvation Model兩種溶劑模型計算反應於氣相及水中活化自由能變化差值,和實驗值(△△G‡exp=3.85 kcal/mol)相比,有明顯低估的情形。反觀利用Cluster-Continuum Solvation Model計算反應活化自由能變化差值,與實驗相比僅差0.19 kcal/mol。 另外,針對Cluster-continuum Solvation Model探討溶劑效應的部份,發現疏水效應(Hydrophobic effect)僅佔溶劑效應39.2%的影響力,大多數皆來自於疏水效應(Hydrogen bonding effect)之貢獻(60.8%),與Explicit及Implicit solvation model結果相比即可發現,上述兩溶劑模型在計算疏水效應(75.6%)或氫鍵結效應(60.8%)對溶劑效應之影響力時,皆有高估之情形。經由分析數據後,此現象證實與Cluster及Continuum Solvation Model沒有考慮到近程(前者)及遠程(後者)作用力的干擾,降低疏水效應或氫鍵結效應對反應能量及速率變化的影響,因而產生計算誤差有關。 In this thesis, we investigated the activation energy of the Diels-Alder reaction in gas, aqueous, and in methanol solution. Free energy of Diels-Alder reaction of cyclopentadiene with methyl vinyl ketone have been computed using hybrid density functional theory(HDFT) and different solvation models. Compared to 3.85 kcal/mol which obtained by experimental rate constant difference between the gas and aqueous phase, the cluster and continuum solvation model both underestimate the activation free energies. However, the cluster-continuum solvation model gives the free energy difference were by 0.19 kcal / mol. Therefore, cluster-continuum solvation model is considered to be widely used to compute, analysis, and research chemical or physical property of reaction system in solvent. Results computed by cluster-continuum solvation model also showed that, most solvent effect caused from hydrogen bonding effect (60.8%), only 34% caused from hydrophobic effect. Therefore, computational results from explicit and implicit solvation model are considered to be overestimate (Hydrophobic effect:75.6%;Hydrogen bonding effect:60.8%). This consequence proved that using explicit and implicit solvation model to compute activation free energies of reaction change in different environment would cause errors by neglecting the interference of short-range (or long-range) interaction.
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310002026691 博碩士論文區(二樓) 不外借資料 學位論文 TH 008M/0019 421202 1194 2010 一般使用(Normal) 在架 0
310002026709 博碩士論文區(二樓) 不外借資料 學位論文 TH 008M/0019 421202 1194 2010 c.2 一般使用(Normal) 在架 0
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