物理学报
物理學報
물이학보
2013年
5期
443-450
,共8页
钱帅%郭新立%王家佳%余新泉%吴三械%于金
錢帥%郭新立%王傢佳%餘新泉%吳三械%于金
전수%곽신립%왕가가%여신천%오삼계%우금
贵金属混合团簇%静态极化率%B3LYP-TDDFT%吸收光谱
貴金屬混閤糰簇%靜態極化率%B3LYP-TDDFT%吸收光譜
귀금속혼합단족%정태겁화솔%B3LYP-TDDFT%흡수광보
mixed noble metal clusters%static polarizabilities%B3LYP-TDDFT%optical absorption spectra
采用遗传算法,得到贵金属混合团簇Cun?1Au (n=2—10)的稳态结构,并采用分别基于静态及含时的密度泛函理论的第一性原理方法计算了团簇的静态极化率和吸收光谱.由于d电子屏蔽效应的增强,金原子的引入会导致团簇静态极化率的降低,但立体的构型能减小这种影响.基于含时密度泛函理论的第一性原理计算得到的吸收光谱指出,这种屏蔽效应同时导致共振强度的明显下降. d轨道对跃迁贡献的进一步计算,指出d轨道成分是团簇的光激发中的主要贡献者,但d电子的屏蔽作用并不会直接导致在激发中d轨道贡献的提升.针对固定尺寸体系, Cu6?nAun (n=0—6)团簇的研究进一步论证了此观点.计算的光谱与实验值能很好地对应,并且比其他更早的理论计算更为接近实验值.
採用遺傳算法,得到貴金屬混閤糰簇Cun?1Au (n=2—10)的穩態結構,併採用分彆基于靜態及含時的密度汎函理論的第一性原理方法計算瞭糰簇的靜態極化率和吸收光譜.由于d電子屏蔽效應的增彊,金原子的引入會導緻糰簇靜態極化率的降低,但立體的構型能減小這種影響.基于含時密度汎函理論的第一性原理計算得到的吸收光譜指齣,這種屏蔽效應同時導緻共振彊度的明顯下降. d軌道對躍遷貢獻的進一步計算,指齣d軌道成分是糰簇的光激髮中的主要貢獻者,但d電子的屏蔽作用併不會直接導緻在激髮中d軌道貢獻的提升.針對固定呎吋體繫, Cu6?nAun (n=0—6)糰簇的研究進一步論證瞭此觀點.計算的光譜與實驗值能很好地對應,併且比其他更早的理論計算更為接近實驗值.
채용유전산법,득도귀금속혼합단족Cun?1Au (n=2—10)적은태결구,병채용분별기우정태급함시적밀도범함이론적제일성원리방법계산료단족적정태겁화솔화흡수광보.유우d전자병폐효응적증강,금원자적인입회도치단족정태겁화솔적강저,단입체적구형능감소저충영향.기우함시밀도범함이론적제일성원리계산득도적흡수광보지출,저충병폐효응동시도치공진강도적명현하강. d궤도대약천공헌적진일보계산,지출d궤도성분시단족적광격발중적주요공헌자,단d전자적병폐작용병불회직접도치재격발중d궤도공헌적제승.침대고정척촌체계, Cu6?nAun (n=0—6)단족적연구진일보론증료차관점.계산적광보여실험치능흔호지대응,병차비기타경조적이론계산경위접근실험치.
The structures of Cun?1Au clusters are examined using the genetic algorithm, and the static polarizabilities and optical absorption spectra are investigated by first principles computations within the static and time-dependent versions of the density functional theory. The static polarizabilities decrease after being doped by one Au atom due to the strengthened screening effect of d electrons, which can also be weakened by three-dimensional structures. The optical spectra computed within the time-dependent density functional theory indicate that the screening effect also leads to the quenching of oscillator strengths. A deeper analysis of d-orbit indicates d-orbit is the main contributor in the optical excitation while its growing up is not directly influenced by the strengthened screening effect. The research on Cu6?nAun (n=0—6) clusters in a fixed size system verifies our arguments further. Our calculation results are in good agreement with the experimental data on the optical absorption spectra, which are closer to the experimental data than the earlier theoretical results.
