物理化学学报
物理化學學報
물이화학학보
ACTA PHYSICO-CHIMICA SINICA
2012年
5期
1085-1093
,共9页
曹振锋%陈启斌%卢运祥%刘洪来%胡英
曹振鋒%陳啟斌%盧運祥%劉洪來%鬍英
조진봉%진계빈%로운상%류홍래%호영
含时密度泛函理论%电子吸收光谱%电子跃迁%红移%三重激发态
含時密度汎函理論%電子吸收光譜%電子躍遷%紅移%三重激髮態
함시밀도범함이론%전자흡수광보%전자약천%홍이%삼중격발태
TD-DFT%Electronic absorption spectrum%Electronic transition%Bathochromic shift%Triplet state
取代的卟啉类衍生物在气敏传感器方面具有广泛的应用前景.本文采用了密度泛函理论(DFT)和含时密度泛函理论(TD-DFT)研究了四种不同取代基的卟啉衍生物(meso位四硝基苯基/四氨基苯基卟啉(NO2PP,NH2PP)及其相应的锌金属卟啉衍生物(NO2ZnPP,NH2ZnPP))的紫外和近紫外光谱特征.利用两种不同的交换相关泛函(广义梯度近似泛函(PBE)和杂化密度泛函(B3LYP))优化了上述四种物质的结构,并应用TD-DFT计算了相应的电子激发能量和振动强度.结果表明,取代卟啉的吸收光谱与大量的电子跃迁有关;与B3LYP泛函预测的光谱相比,PBE泛函所得B带以及Q带的波长位置与实验值更为接近.另外,计算所得硝基取代基卟啉的B带相对于氨基取代基卟啉的B带发生了红移,这与实验现象也保持一致.由于卟啉衍生物的三重激发态在电子转移中有很重要的应用,因此在PBE/6-31G(d)水平上计算了四种物质的最低三重激发态能量,分别为1.426、1.469、1.608和1.581 eV.
取代的卟啉類衍生物在氣敏傳感器方麵具有廣汎的應用前景.本文採用瞭密度汎函理論(DFT)和含時密度汎函理論(TD-DFT)研究瞭四種不同取代基的卟啉衍生物(meso位四硝基苯基/四氨基苯基卟啉(NO2PP,NH2PP)及其相應的鋅金屬卟啉衍生物(NO2ZnPP,NH2ZnPP))的紫外和近紫外光譜特徵.利用兩種不同的交換相關汎函(廣義梯度近似汎函(PBE)和雜化密度汎函(B3LYP))優化瞭上述四種物質的結構,併應用TD-DFT計算瞭相應的電子激髮能量和振動彊度.結果錶明,取代卟啉的吸收光譜與大量的電子躍遷有關;與B3LYP汎函預測的光譜相比,PBE汎函所得B帶以及Q帶的波長位置與實驗值更為接近.另外,計算所得硝基取代基卟啉的B帶相對于氨基取代基卟啉的B帶髮生瞭紅移,這與實驗現象也保持一緻.由于卟啉衍生物的三重激髮態在電子轉移中有很重要的應用,因此在PBE/6-31G(d)水平上計算瞭四種物質的最低三重激髮態能量,分彆為1.426、1.469、1.608和1.581 eV.
취대적계람류연생물재기민전감기방면구유엄범적응용전경.본문채용료밀도범함이론(DFT)화함시밀도범함이론(TD-DFT)연구료사충불동취대기적계람연생물(meso위사초기분기/사안기분기계람(NO2PP,NH2PP)급기상응적자금속계람연생물(NO2ZnPP,NH2ZnPP))적자외화근자외광보특정.이용량충불동적교환상관범함(엄의제도근사범함(PBE)화잡화밀도범함(B3LYP))우화료상술사충물질적결구,병응용TD-DFT계산료상응적전자격발능량화진동강도.결과표명,취대계람적흡수광보여대량적전자약천유관;여B3LYP범함예측적광보상비,PBE범함소득B대이급Q대적파장위치여실험치경위접근.령외,계산소득초기취대기계람적B대상대우안기취대기계람적B대발생료홍이,저여실험현상야보지일치.유우계람연생물적삼중격발태재전자전이중유흔중요적응용,인차재PBE/6-31G(d)수평상계산료사충물질적최저삼중격발태능량,분별위1.426、1.469、1.608화1.581 eV.
Meso-substituted porphyrin derivatives have demonstrated great potential as sensing materials for toxic gas detection.In this paper,density functional theory (DFT) and its time-dependent DFT approach (TD-DFT) were employed to investigate the ultraviolet-visible (UV-Vis) or the near-ultravioletvisible (near-UV-Vis) absorption spectra of meso-tetra (o-nitrophenyl/o-aminophenyl) porphyrins (NO2PP,NH2PP) and their corresponding zinc derivatives,NO2ZnPP and NH2ZnPP.The geometry optimizations for these four molecules were obtained from two different exchange-correlation functionals,the generalizedgradient approximation functional PBE (Perdew-Burke-Ernzerhof) and the hybrid functional B3LYP (Becke,three-parameter,Lee-Yang-Parr).The excitation energies and oscillation strengths were obtained from TD-DFT calculations.Calculations show that the optical absorptions are associated with numerous electronic transitions.In addition,the PBE-predicted wavelengths of the B and Q bands are more consistent with experiment than those predicted by B3LYP.The B band of NO2-substituted derivative exhibits a bathochromic shift different from that of NH2-containing material,also consistent with experimental results.In addition,at the PBE/6-31G(d) level of theory,the calculated energies of the lowest triplet excited states of NO2PP,NH2PP,NO2ZnPP,and NH2ZnPP are 1.426,1.469,1.608,and 1.581 eV,respectively.