当代化工
噹代化工
당대화공
CONTEMPORARY CHEMICAL INDUSTRY
2014年
3期
334-336,339
,共4页
甲卡西酮%密度泛函理论%电子光谱
甲卡西酮%密度汎函理論%電子光譜
갑잡서동%밀도범함이론%전자광보
Methcathinone%Density functional theory%Electronic spectra
采用密度泛函理论的DFT/B3LYP方法和6-311+G(d,p)基组,对甲卡西酮(C10H13NO)的UV-Vis光谱,ECD光谱,IR光谱,拉曼光谱,1HNMR光谱和荧光光谱进行了理论模拟和指认。自然电荷计算表明,胺基N和甲基C原子很可能是其发挥药理活性的亲电和亲核反应中心。
採用密度汎函理論的DFT/B3LYP方法和6-311+G(d,p)基組,對甲卡西酮(C10H13NO)的UV-Vis光譜,ECD光譜,IR光譜,拉曼光譜,1HNMR光譜和熒光光譜進行瞭理論模擬和指認。自然電荷計算錶明,胺基N和甲基C原子很可能是其髮揮藥理活性的親電和親覈反應中心。
채용밀도범함이론적DFT/B3LYP방법화6-311+G(d,p)기조,대갑잡서동(C10H13NO)적UV-Vis광보,ECD광보,IR광보,랍만광보,1HNMR광보화형광광보진행료이론모의화지인。자연전하계산표명,알기N화갑기C원자흔가능시기발휘약리활성적친전화친핵반응중심。
The density functional theory DFT/B3LYP/6-311+G(d, p) method and basis set were used to carry out theoretical simulation and identification for UV-Vis spectroscopy, IR spectroscopy, 1HNMR spectrum and fluorescence spectroscopy of methcathinone. Natural charge calculations show that amine N and methyl C atoms may be the electrophilic and nucleophilic reaction center that can play pharmacological activity.
