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1.
采用密度泛函理论中的B3LYP方法,对In_nNa_m和In_nNa_m~+(n+m≤5;m,n≠0)混合团簇的所有可能构型进行了优化,并作了频率计算.结果表明:较大团簇大多是由较小团簇生长而来的,In_3Na_2团簇有较为丰富的异构体,绝大多数阳离子团簇的稳定结构与其中性稳定结构是相似的;中性团簇基态结构的平均结合能和能隙随Na原子个数变化的趋势基本一致;InNa_3和In_3Na_2的垂直电离能和绝热电离能的差别较大;团簇中的Na原子容易失去电子,而In原子倾向于得到电子.  相似文献   

2.
利用遗传算法结合Gupta原子间相互作用势,采用密度泛函理论,系统研究了带电 团簇的基态与低激发态的几何结构和电子结构并与中性Cu13团簇进行了对比.计算结果表明:对 Cu13(中性及带电)团簇,高对称性几何构型在众多异构中无能量竞争性优势,团簇基态结构皆为非紧致低对称性结构,对 负电Cu13找到一种新的低对称性最低能结构;带电明显影响团簇结构稳定性,带电Cu13团簇与中性Cu13团簇的结构稳定性序列显著不同;基态 Cu13(中性及带电)团簇的具有磁矩最小化效应,而其高对称性结构则有较大磁矩;计算所得Cu13团簇电离能及电子亲和势与实验结果相符.  相似文献   

3.
杨雪  丁大军  胡湛  赵国明 《物理学报》2018,67(3):33601-033601
使用密度泛函B3LYP方法,在6-31G*和6-311+G**基组水平上计算中性和阳离子丁酮团簇(CH_3COC_2H_5)_n和(CH_3COC_2H_5)_n~+(n 7)的稳定结构,并比较不同尺寸团簇之间的相对稳定性.中性和阳离子丁酮团簇的结构具有相似性:n=3—7时,组成团簇的丁酮的平均几何参数基本相同,单环结构最稳定;随着团簇尺寸的增加,双环结构的稳定性逐渐上升.通过平均结合能、一阶差分能、HOMO-LUMO能隙等计算分析可知:在所研究的各种尺寸团簇中,(CH_3COC_2H_5)_3是最稳定的中性团簇,与实验中的最强峰对应;(CH_3COC_2H_5)_4~+是最稳定的阳离子团簇.通过电离能计算得到丁酮分子的垂直电离能为9.535 eV与实验值相符,同时证明中性和阳离子丁酮二元团簇的结构变化较大.研究结果为实验中丁酮团簇碎片离子的形成机理提供一定的理论依据,并且为进一步研究酮类分子团簇的生长规律提供有价值的信息.  相似文献   

4.
运用卡里普索(CALYPSO)结构预测方法,在杂化密度泛函B3LYP/6-311G+(d)基组水平上,对Al_nCl(n=2-14)团簇的几何结构与电子性质进行优化计算,并讨论了团簇的平均结合能、能隙、二阶能量差分、电离能、亲和能以及电子自然布居和极化率.研究结果表明:Al_nCl(n=2-14)团簇的基态构型由简单平面几何结构向立体结构演化,形成Cl原子戴帽Al_n-1Cl团簇结构;Cl原子的掺杂增大了Al_n团簇的平均结合能;二阶能量差分、能隙、电离能、亲和能的变化表明Al_7Cl是幻数团簇结构;团簇中的电荷总是由Al_原子向Cl原子转移,原子之间的成键作用随着团簇尺寸的增大而增强.  相似文献   

5.
运用卡里普索(CALYPSO)结构预测方法,在杂化密度泛函B3LYP/6-311G+(d)基组水平上,对AlnCl(n=2-14)团簇的几何结构与电子性质进行优化计算,并讨论了团簇的平均结合能、能隙、二阶能量差分、电离能、亲和能以及电子自然布局和极化率。研究结果表明:AlnCl(n=2-14)团簇的基态构型由简单平面几何结构向立体结构演化,形成Cl原子戴帽Aln-1Cl团簇结构;Cl原子的掺杂增大了Aln团簇的平均结合能;二阶能量差分、能隙、电离能、亲和能的变化表明Al7Cl是幻数团簇结构;团簇中的电荷总是由Al原子向Cl原子转移,原子之间的成键作用随着团簇尺寸的增大而增强。  相似文献   

6.
从第一性原理出发利用密度泛函理论(DFT)计算了LiNBe(N=1-12)团簇的基态结构及其电子性质.计算结果表明:铍掺杂锂团簇LiNBe(N=1-12)的基态结构相当于Be原子取代LiN 1主团簇基态结构中一个Li原子的位置;当团簇尺寸N≥6时,杂质原子Be被束缚在主团簇笼子内;随着团簇尺寸增大,团簇的离解能和二阶能量差分均出现了奇-偶振荡;从结构稳定性上来看,Li6Be是个幻数团簇.  相似文献   

7.
采用密度泛函理论(density functional theory,DFT)中的广义梯度近似(generalized gradient approximation,GGA)分别对Al_(13)和MAl_(12)(M=Ni、Mn)四种初始结构的中性和一价阴离子团簇进行计算研究.发现中性和阴离子团簇的基态几何结构均保持I_h对称性,并且基态阴离子团簇还具有较高的运动学稳定性.电磁性质计算显示:基态的中性和阴离子NiAl_(12)团簇分别带有2_(μB)、3_(μB)的磁矩,Ni原子的磁性几乎完全淬灭;而MnAl_(12)团簇分别带有7_(μB)、6_(μB)的磁矩,Mn原子的磁矩主要由3d轨道提供.基态团簇的表面原子出现了自旋分裂,与中心原子呈现出铁磁性作用.对垂直电离能和垂直亲和能的分析表明:中心原子被替代之后,团簇的得电子能力和失电子能力都有所降低.  相似文献   

8.
结合半经验原子间势及遗传算法,采用密度泛函理论,系统计算研究了Cun(n=2-12)及Cun±(n=2-12)的基态与低激发态的几何结构与电子结构.结果表明:对中性团簇在n=3-6时基态为平面结构,而对于带电体系n=3-5时基态为低维结构,其中平面结构都以三角形为基本单元;对含更多原子的立体结构,基态主要以五角双锥为基本结构单元,传统的高对称性结构在小铜团簇基态中不占优势;计算所得Cun(n=2-12)中性体系结合能与实验结果完全一致,而结合带电体系计算所得团簇电离能与亲和势也与实验相符合;团簇电子结构的相关曲线(电离能、亲和势、二阶差分能)均呈现明显的奇偶振荡现象,这与含偶数电子Cu团簇的相对高稳定性密切相关。  相似文献   

9.
结合半经验原子间势及遗传算法,采用密度泛函理论,系统计算研究了Cun(n=2-12)及Cun±(n=2-12)的基态与低激发态的几何结构与电子结构.结果表明:对中性团簇在n=3-6时基态为平面结构,而对于带电体系n=3-5时基态为低维结构,其中平面结构都以三角形为基本单元;对含更多原子的立体结构,基态主要以五角双锥为基本结构单元,传统的高对称性结构在小铜团簇基态中不占优势;计算所得Cun(n=2-12)中性体系结合能与实验结果完全一致,而结合带电体系计算所得团簇电离能与亲和势也与实验相符合;团簇电子结构的相关曲线(电离能、亲和势、二阶差分能)均呈现明显的奇偶振荡现象,这与含偶数电子Cu团簇的相对高稳定性密切相关。  相似文献   

10.
采用基于密度泛函理论的紧束缚方法和遗传算法相结合的方法对SixGey(x+y=n,n=2~5)二元团簇的低能稳定结构进行了全局搜索,分析了包含不同原子数目、不同组分团簇的几何构型、原子间交叠电子布居数及可能发生的解离行为。研究表明,包含2~5原子团簇的Si-Si、Ge-Ge和Si-Ge键的成键距离分别为2.18 Å ~ 3.10 Å、2.32 Å ~ 3.64 Å和2.32Å ~ 3.38 Å;二元团簇的原子数目、组分对原子间键长、键角及Si/Ge原子在团簇中的占位、原子间相互作用有明显影响。通过团簇中各原子的Mülliken总交叠电子布居数分析,发现多数团簇中单独的Ge原子最容易被解离出来,随着团簇包含原子数目增多,出现了多种存在竞争机制的解离方式,可能同时存在解离出Si1Ge1、Si2Ge1和Ge原子的情况。  相似文献   

11.
The shift in the harmonic vibrational frequency of the H–C stretch of HCN on formation of the linear Rg···HCN complexes, and of the H–N stretch of HNC on the formation of Rg···HNC complexes (Rg?=?He, Ne, Ar, Kr), has been determined by ab initio computations. These shifts are in agreement with predictions from a model based on perturbation theory and involving the first and second derivatives of the interaction energy with respect to displacement of the H–C (H–N) bond length from its equilibrium value in the monomer. Small blue shifts were obtained for He···HCN, Ne···HCN and He···HNC, while red shifts were obtained for the other weakly bound complexes. These vibrational characteristics are rationalized by considering the balance between the interaction energy derivatives obtained from the perturbative model. For all complexes, the IR intensity of the H–C or H–N stretch was increased from the isolated monomer values on complexation.  相似文献   

12.
F. Pauzat  J. Ridard  B. Levy 《Molecular physics》2013,111(6):1163-1178
The lowest ionization potential and transition energies of methane are calculated by a second-order perturbation expansion, using a limited basis of gaussian-type orbitals. An attempt is made to rationalize the choice of basis atomic orbitals. This procedure yields 13·8 eV for the first ionization potential and 10·4 eV for the lowest allowed transition provided a diffuse molecular orbital is added to describe the excited state (the experimental values are 13·6 and 9·7 eV). These two values include contributions of -1·0 and -0·70 eV, respectively, from an approximate optimization of the basis atomic orbitals and of +0·50 and +0·25 eV from electron correlation.  相似文献   

13.
Superatoms are clusters that mimic the chemistry of atoms and new materials with unique properties can be synthesized from them. Superalkali NM4 clusters with homo- and hetero-alkalis M = Li, Na, K are designed, and their vertical ionization potentials (3.22 ~ 3.74 eV) are lower than that of Cs atom. The stabilities of the superalkalis are guaranteed by the binding energies and positive energies of the dissociation channel NM3 + M, and NLi4 is the most stable among the NM4 clusters. The high stability and tetrahedral geometry make these species idea units for building new materials.  相似文献   

14.
Multi-configuration Dirac-Fock method (MCDF) is employed to calculate excitation energies, ionization potentials and oscillator strengths for all neutral and up to 5 times ionized species of element Uub, as well as the homologue elements Zn, Cd and Hg. On the basis of not too extended MCDF calculations, we studied some peculiar properties of element Uub resulting from its stronger relativistic and electron correlation effects. Using an extrapolative scheme, improved ionization potentials of Uub were obtained with an uncertainty of less than 0.5 eV. Furthermore, we calculated the low-lying resonance excitation energies, absorption oscillator strengths and the first ionization potential for Hg and Uub using large scale MCDF calculations, which improved the uncertainty of the excitation energies to less than 0.25 eV for element Hg. We hope that such calculations yield good results for element Uub.  相似文献   

15.
用B3LYP和MP2量子化学理论 ,详细地计算了HO3 、HO+ 3 、HO-3 可能的平衡构型、能量和光谱参数 ,分析了它们可能的解离通道和稳定性 .还分析了HO3 的电离势 (IE)及电子亲和势 (Ea) ,讨论了HO3 、HO3 -自由基的光电子能谱的特征 ,及用光电子能谱去探测HO3 的可能性  相似文献   

16.
Self-consistent Hartree-Fock-Slater molecular cluster calculations for the chemisorption of carbon monoxide on a Ni(100) surface are presented. In earlier calculations of this type the CO molecule has been assumed to be chemisorbed in a hollow position of C4v symmetry. A recent EELS experiment shows however that in the most stable configuration CO is linearly bonded to the Ni atoms, i.e. a top position of the CO-molecule. This experiment indicates also that there exists an additional bridge bonding of the CO molecule to the two nearest neighbour Ni atoms. The variation of the energy levels, binding energies and charge distribution with the height of the CO molecule above the nickel surface is calculated for the top position using the NiCO and Ni5CO clusters and for the bridge bonding configuration using the Ni2CO cluster. The CO 1π level is found to be split by about 0.8 eV in bridge bonding geometry. For both hollow and top positions the 1π and 5σ levels are separated by about 0.5 eV. The energy separation to the 4σ level is about 3 eV, which is in good agreement with experimental data. Theoretical ionization energies relative to the Fermi energy for top position geometry at a bond distance of 3.5 au between the carbon atom and nickel surface were found to be 25.7, 11.7, 8.7 and 8.2 eV for the 3σ, 4σ, 5σ and 1π levels which should be compared with the experimental data of 29.0, 10.8, 8.4 and 7.8 eV, respectively. The corresponding ionization energies for a bond angle of 99° in bridge bonding were 23.7, 12.1, 7.3, 7.0 and 7.9 eV. The two last values represent the 1π level which is split into two levels in this geometry. The variation of the C-O stretch vibrational frequencies with the height of the CO molecule above the surface for the top-position geometry is estimated from the 5σ and 2π gross orbital populations and from the CO σ and π overlap populations.  相似文献   

17.
The vertical core– and valence–shell electron excitation and ionization energies of the three title molecules, 13, were calculated by density functional theory (DFT) using adequate functional for each type of processes and atoms under study. The inner shells treated were C1s, N1s, S1s, S2s, S2p. Molecular geometry was optimized by DFT B3LYP/6-311 + (d,p). The basis set of triple zeta plus polarization (TZP) Slater-type orbitals was employed for DFT calculations. The ΔSCF method was used to calculate ionization energies. The average absolute deviation (AAD) from experiment of 26 valence-electron ionization energies calculated by DFT for the three molecules 13 was 0.14 eV; while that of 24 calculated core-electron binding energies (CEBEs) from experiment was 0.4 eV. Selected core excitation energies were calculated by the multiplet approximation for the three molecules. The AAD of twelve calculated core excitation energies by the multiplet approximation that exclude S2s cases was 0.56 eV. Time-dependent DFT (TDDFT) was employed to calculate the excitation energies and corresponding oscillator strengths of core- and valence-electrons of the molecules. Some selected occupied core orbitals were used to calculate the core-excitation energies with the TDDFT (Sterner–Frozoni–Simone scheme). The core excitation energies thus calculated were in an average error of ca. 28 eV compared to observed values. They were shifted to the value calculated by the multiplet approximation. Convoluted spectra based upon the shifted energies and accompanying oscillator strengths reproduce low-energy region of observed spectra reasonably well, whereas they deviate from experiment in high-energy region. Reasonable agreement between theory and experiment was obtained for the valence electron excitations of the molecules.  相似文献   

18.
利用国家同步辐射实验室合肥光源的真空紫外同步辐射,使NO分子和Ar原子混合物的超声分子束发生光电离,测量了Ar,NO和异类团簇Ar·NO的光电离效率谱. 在谱中,在与Ar原子的共振线对应的能量区域(11.5—12.0 eV)观察到一个强的类共振结构. 这个结果表明,在异类团簇Ar·NO的内部,稀有气体Ar原子的激发能转移到与它接触的分子NO上,使分子NO发生电离. 关键词: Ar·NO团簇 同步辐射 光电离 能量转移  相似文献   

19.
The evolution of an organic molecule after sputtering from a gold surface has been analyzed by classical molecular dynamics and ab initio calculations to gain insight into the ionization and fragmentation processes occurring in SIMS. The calculated ionization potential (6.2 eV) of the tetraphenylnaphthalene (TPN) molecule has been found to be close to the unimolecular dissociation energy (5.4 eV) of the most favorable reaction channel involving the loss of a phenyl ring. On the other hand, our calculations show that the internal energies of sputtered TPN molecules can be significantly larger than 5-6 eV. Therefore, it appears energetically possible to relax such excited molecules via both fragmentation and ionization.We propose to virtually decompose the TPN molecule into its basic fragments. The rationale is that, if the molecule is very excited, then separate parts (e.g. pendant phenyl rings) can interact with each other almost independently. The analysis of the molecular motion after emission shows that the oscillations along the phenyl-naphthalene bond direction, expected to induce the molecule fragmentation by the loss of a phenyl ring, are relatively small (they store only about 0.2 eV). On the other hand, the relative energy stored in the inter-phenyl interactions, modulated by their bending and responsible for ionization according to our hypothesis, oscillates over a range of 6-7 eV and favors ionization.  相似文献   

20.
利用从头计算方法在MP2 / 6 31+G 和MP2 / 6 311++G(d ,p)水平上对N 甲替甲酰胺 (NMF) 水氢键团簇进行了研究 .计算给出了所有中性和离子化NMF H2 O团簇的优化结构、解离通道以及解离能 .对于N 甲替甲酰胺 ,顺式结构比反式结构具有更低的能量 .对于质子化的NMF ,质子倾向于连接在甲替甲酰胺的氧原子上 .计算结果表明 ,NMF的顺式和反式构型都可以与水分子形成线型的氢键结构 .尽管NMF反式结构比顺式结构能量高 ,但由于反式结构能与水分子形成双氢键 ,因此能更稳定的存在 .N 甲替甲酰胺 水团簇电离后 ,无论顺式和反式结构均有质子化产物生成 .  相似文献   

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