High-resolution isotope selective laser spectroscopy of Ag2 molecules

Beutel, V.; Krämer, H.-G.; Bhale, G. L.; Kühn, M.; Weyers, K.; Demtröder, Wolfgang

doi:10.1063/1.464151

Cited by 138 publications

(70 citation statements)

References 25 publications

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“…The silver dimer has been extensively studied in matrices, 30 as well as in the gas phase. 31,32 In particular absorption in neon was already obtained by Schrittenlacher et between 2 and 10 eV. 33 The measured absorption peaks at 3.00, 4.68, 4.79, and 5.08 eV are in excellent agreement with our results.…”

Section: A Comparison To Previous Experimental Resultssupporting

confidence: 81%

Ultraviolet-visible absorption of small silver clusters in neon: Agn (n = 1–9)

Lecoultre

Rydlo

Buttet

et al. 2011

The Journal of Chemical Physics

106

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We present optical absorption and fluorescence spectra in the UV-visible range of size selected neutral Ag n clusters (n = 1-9) in solid neon. Rich and detailed optical spectra are found with linewidths as small as 50 meV. These spectra are compared to time dependent density functional theory implemented in the TURBOMOLE package. Excellent agreement between theory and experiment is achieved in particular for the dominant spectroscopic features at photon energies below 4.5 eV. This allows a clear attribution of the observed electronic transitions to specific isomers. Optical transitions associated to the s-electrons are concentrated in the energy range between 3 and 4 eV and well separated from transitions of the d-electrons. This is in contrast to the other coinage metals (Au and Cu) which show a strong coupling of the d-electrons.

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Section: A Comparison To Previous Experimental Resultssupporting

confidence: 81%

Ultraviolet-visible absorption of small silver clusters in neon: Agn (n = 1–9)

Lecoultre

Rydlo

Buttet

et al. 2011

The Journal of Chemical Physics

106

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“…Internuclear distances of Ag 2 and Ag 2 − have been determined from spectroscopy experiments. 16,17 We use CCSD(T)/aug-ccpVQZ-PP plus core−valence correlation functions (CCSD(T)/ cc-pwCVDZ-PP) method to optimize the lowest-energy isomers of Ag 2 + , Ag 3 , Ag 3 + , Ag 3 − , Ag 4 , as well as other isomers: a D ∞h structure of Ag 3 , a D ∞h structure of Ag 3 + , a D 3h structure of Ag 3 − , and a C 2v structure of Ag 4 . Figure 1 shows the structures of 11 neutral and charged silver clusters used as reference data for geometries.…”

Section: Resultsmentioning

confidence: 99%

Validation of Methods for Computational Catalyst Design: Geometries, Structures, and Energies of Neutral and Charged Silver Clusters

Duanmu

Truhlar

2015

J. Phys. Chem. C

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We report a systematic study of small silver clusters, Ag n , Ag n + , and Ag n − , n = 1−7. We studied all possible isomers of clusters with n = 5−7. We tested 42 exchange−correlation functionals, and we assess these functionals for their accuracy in three respects: geometries (quantitative prediction of internuclear distances), structures (the nature of the lowest-energy structure, for example, whether it is planar or nonplanar), and energies. We find that the ingredients of exchange−correlation functionals are indicators of their success in predicting geometries and structures: local exchange−correlation functionals are generally better than hybrid functionals for geometries; functionals depending on kinetic energy density are the best for predicting the lowest-energy isomer correctly, especially for predicting two-dimensional to threedimenstional transitions correctly. The accuracy for energies is less sensitive to the ingredient list. Our findings could be useful for guiding the selection of methods for computational catalyst design.

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“…Известно из эксперимента [21], что равновесная длина связи для димера серебра Ag 2 равна 253 пм, а энергия связи -1,69 эВ (38,97 ккал/моль). Из табл.…”

Section: результаты и обсуждениеunclassified

“…2. Отклонение энергии связи молекулярных кластеров Ag 2 и Cu 2 при использовании базисов различной размерности относительно уровня теории BLYP/QZ4P от экспериментального значения [21]:…”

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Influence of DFT-functional and basis set of functions on calculation results of the structural and energy properties of Ag2 molecular cluster

Maxim¹,

Ivanvich²

2015

Naučno-teh. vestn. inf. tehnol. meh. opt.

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Научно-технический вестник информационных технологий, механики и оптики, АннотацияВ рамках теории функционала плотности выполнена оценка влияния обменно-корреляционных функционалов и ба-зисных наборов на свойства молекулярного кластера серебра Ag 2 . Для сравнительного анализа использовались такие свойства молекулярного кластера, как равновесная длина связи и полная энергия связи. Проанализирован эффект от смены размерности полноэлектронных базисных наборов для четырех обменно-корреляционных функционалов раз-ных категорий: в приближении локальной плотности, градиентно-скорректированные и гибридный. Обсуждаются результаты, полученные для базисных наборов с разным уровнем приближения замороженного остова. Наилучшее согласие с экспериментальным значением показали расчеты, выполненные с применением градиентно-скорректированных функционалов и четырежды поляризованного четырехэкспоненциального полноэлектронного базисного набора. Приближение замороженного остова малого размера позволяет сократить время вычисления, а отклонение расчетного значения полной энергии связи от экспериментального принимает меньшее значение по срав-нению с полноэлектронным вариантом базисного набора. Полученные результаты представляют методический инте-рес для проведения корректных расчетов указанных характеристик молекулярных кластеров с ожидаемой точностью. Ключевые слова теория функционала плотности, квантово-химический расчет, молекулярный кластер, серебро, обменно-корреляционный функционал. Благодарности Работа выполнена при финансовой поддержке Минобрнауки РФ при выполнении научно-исследовательской работы в рамках проектной части государственного задания в сфере научной деятельности по заданию №11.1227.2014/K. Scientific and Technical Journal of Information Technologies, Mechanics and Optics, 2015, vol.15, no. 3, pp. 532-537. INFLUENCE OF DFT-FUNCTIONAL AND BASIS SET OF FUNCTIONS ON CALCULATION RESULTS OF THE STRUCTURAL AND ENERGY PROPERTIES AbstractThe paper deals with the impact assessment for the exchange-correlation functionals and Slater-type basis sets on the properties of molecular cluster Ag 2 carried out within the framework of the density functional theory. For comparative analysis of these properties equilibrium bond length and the total binding energy of the molecular cluster were used. The effect of the change of all-electron basis sets dimension within four exchange-correlation functionals of different categories was analyzed. We also discuss the results obtained for the basis sets with different levels of frozen-core approximation.Results obtained with the gradient corrected exchange-correlation functionals and all-electron QZ4P basis set show the best agreement with the experimentally determined values. Small size frozen-core approximation reduces the computation time,

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High-resolution isotope selective laser spectroscopy of Ag2 molecules

Cited by 138 publications

References 25 publications

Ultraviolet-visible absorption of small silver clusters in neon: Agn (n = 1–9)

Ultraviolet-visible absorption of small silver clusters in neon: Agn (n = 1–9)

Validation of Methods for Computational Catalyst Design: Geometries, Structures, and Energies of Neutral and Charged Silver Clusters

Influence of DFT-functional and basis set of functions on calculation results of the structural and energy properties of Ag2 molecular cluster

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