光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
SPECTROSCOPY AND SPECTRAL ANALYSIS
2013年
12期
3259-3262
,共4页
梁小蕊%王刚%江炎兰%瞿成利%王秀娟%赵波
樑小蕊%王剛%江炎蘭%瞿成利%王秀娟%趙波
량소예%왕강%강염란%구성리%왕수연%조파
水杨醛缩对乙酰基苯胺%DFT%TD-DFT%荧光光谱%荧光量子效率
水楊醛縮對乙酰基苯胺%DFT%TD-DFT%熒光光譜%熒光量子效率
수양철축대을선기분알%DFT%TD-DFT%형광광보%형광양자효솔
4-(2-hydroxybenzylideneamino )phenyl ethanone%DFT%TD-DFT%Fluorescence spectrum%Fluorescence quantum yield
以水杨醛和对乙酰基苯胺为原料,首次采用绿色环保的室温固相反应方法制备了水杨醛缩对乙酰基苯胺希夫碱,用元素分析和核磁共振氢谱对产物进行了表征。测定了产物的紫外光谱、荧光光谱和相对荧光量子效率,发现该化合物具有较强的荧光性质。利用密度泛函理论(density functional theory ,DFT )方法,在B3LYP/6-311G基组水平上优化了该化合物的基态分子构型。采用相同的方法和基组计算了标题化合物的振动频率,频率数据中没有虚频,即该优化构型是稳定的。分析理论计算结果发现:标题分子具有较强的芳香性和较大共轭体系。在基态优化结构的基础上应用含时密度泛函理论(TD-DFT ),在B3LYP/6-31G水平上计算并研究了此化合物的吸收光谱。用单激发组态相互作用(C IS )方法优化了标题分子的激发态构型,并在此基础上用TD-DFT//B3LYP/6-31G方法计算了这种化合物的荧光发射光谱。将理论计算的光谱性质与实验的光谱数据相比较发现二者吻合较好。分析探讨了化合物分子的结构与其荧光性质之间的关系,为进一步寻找具有荧光性质的化合物提供了理论指导。
以水楊醛和對乙酰基苯胺為原料,首次採用綠色環保的室溫固相反應方法製備瞭水楊醛縮對乙酰基苯胺希伕堿,用元素分析和覈磁共振氫譜對產物進行瞭錶徵。測定瞭產物的紫外光譜、熒光光譜和相對熒光量子效率,髮現該化閤物具有較彊的熒光性質。利用密度汎函理論(density functional theory ,DFT )方法,在B3LYP/6-311G基組水平上優化瞭該化閤物的基態分子構型。採用相同的方法和基組計算瞭標題化閤物的振動頻率,頻率數據中沒有虛頻,即該優化構型是穩定的。分析理論計算結果髮現:標題分子具有較彊的芳香性和較大共軛體繫。在基態優化結構的基礎上應用含時密度汎函理論(TD-DFT ),在B3LYP/6-31G水平上計算併研究瞭此化閤物的吸收光譜。用單激髮組態相互作用(C IS )方法優化瞭標題分子的激髮態構型,併在此基礎上用TD-DFT//B3LYP/6-31G方法計算瞭這種化閤物的熒光髮射光譜。將理論計算的光譜性質與實驗的光譜數據相比較髮現二者吻閤較好。分析探討瞭化閤物分子的結構與其熒光性質之間的關繫,為進一步尋找具有熒光性質的化閤物提供瞭理論指導。
이수양철화대을선기분알위원료,수차채용록색배보적실온고상반응방법제비료수양철축대을선기분알희부감,용원소분석화핵자공진경보대산물진행료표정。측정료산물적자외광보、형광광보화상대형광양자효솔,발현해화합물구유교강적형광성질。이용밀도범함이론(density functional theory ,DFT )방법,재B3LYP/6-311G기조수평상우화료해화합물적기태분자구형。채용상동적방법화기조계산료표제화합물적진동빈솔,빈솔수거중몰유허빈,즉해우화구형시은정적。분석이론계산결과발현:표제분자구유교강적방향성화교대공액체계。재기태우화결구적기출상응용함시밀도범함이론(TD-DFT ),재B3LYP/6-31G수평상계산병연구료차화합물적흡수광보。용단격발조태상호작용(C IS )방법우화료표제분자적격발태구형,병재차기출상용TD-DFT//B3LYP/6-31G방법계산료저충화합물적형광발사광보。장이론계산적광보성질여실험적광보수거상비교발현이자문합교호。분석탐토료화합물분자적결구여기형광성질지간적관계,위진일보심조구유형광성질적화합물제공료이론지도。
Using salicylaldehyde and 4-aminophenyl ethanone as raw material ,a Schiff base derivative 4-(2-hydroxybenzylidene-amino)phenyl ethanone was synthesized by the solid phase reaction method at room temperature .The structure of the product was characterized by elemental analysis and 1 HNMR .The UV spectra ,fluorescence emission spectra and fluorescence quantum yield of the title Schiff base derivative were investigated .The results showed that this Schiff base displayed superior fluorescence property .The ground state configuration of the title Schiff base was optimized by density functional theory (DFT ) method at the B3LYP/6-311G level .After vibrational analysis ,there is no imaginary frequency ,which indicates that the structure is stable . Then the ground state configuration was optimized to the excited state configuration by the method of single excited interactions CIS .Based on the optimized structure for the ground state and excited state time-dependent density functional theory (TD-DFT ) calculations were carried out at the B3LYP/6-31G level to predict the absorption spectra and the fluorescence spectra .The re-sults show that the computed spectra were comparable with the spectra from the experiments .The relationship between the mo-lecular structure and the fluorescence property of 4-(2-hydroxybenzylideneamino )phenyl ethanone was also discussed .The re-sults obtained may provide some theoretical guidance for the design of new fluorescence compounds .