Potential energy surfaces of NaFH

Topaler, Maria; Truhlar, Donald G.; Chang, Xiao; Piecuch, Piotr; Polanyi, J. C.

doi:10.1063/1.475344

Cited by 68 publications

(116 citation statements)

References 115 publications

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“…Something new happens in the latter system that does not seem relevant of the local excitation that prevails in the Ca · · · HBr experiment. This is very unexpected not only because of the present comparison with the Ca · · · HBr system but also because local excitation of the metal moiety prevails in all the apparently similar complexes that were investigated so far: complexes between an alkali atom and halogen containing molecules [12,[42][43][44][45][46][47][48][49] or a complex between barium and CH 3 F [15,19,23,25]. Local excitation has also been found in many excited metal ion complexes such as Mg + CH 3 I described in Ref.…”

Section: Discussionsupporting

confidence: 60%

Transition State Spectroscopy of the Photoinduced Ca + CH₃F Reaction. 1. A Cluster Isolated Chemical Reaction Study

et al. 2005

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The "Cluster Isolated Chemical Reactions" technique is used to examine the dynamics of the photoinduced reaction producing electronically excited CaF when 1:1 Ca · CH 3 F complexes are deposited at the surface of large argon clusters. This technique ensures quantitatively that 1:1 complexes are actually at the origin of the observed signals. The reaction is monitored by observing the CaF chemiluminescence while scanning the photoexcitation laser. The resulting action spectrum contains information about the absorption bands of the complex, filtered by the dynamics of the reaction. The observations suggest a profound alteration of the calcium electronic structure and a control of the reaction by the CF stretch in CH 3 F.

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Section: Discussionsupporting

confidence: 60%

Transition State Spectroscopy of the Photoinduced Ca + CH₃F Reaction. 1. A Cluster Isolated Chemical Reaction Study

et al. 2005

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“…In particular the Na/HF system has benefited of extensive ab initio energetics and transition dipole moment calculations that yielded an action spectrum in good agreement with the experimental data [35,36].…”

Section: Introductionmentioning

confidence: 93%

“…Potential and dynamical calculations are also available, essentially for alkali/hydrogen halide systems [9,28,29,30,31,32,33,34,35,36]. In particular the Na/HF system has benefited of extensive ab initio energetics and transition dipole moment calculations that yielded an action spectrum in good agreement with the experimental data [35,36].…”

Section: Introductionmentioning

confidence: 99%

Transition State Spectroscopy of the Photoinduced Ca + CH₃F Reaction. 2. Experimental and Ab Initio Studies of the Free Ca···FCH₃ Complex

et al. 2006

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The Ca* + CH 3 F f CaF* + CH 3 reaction was photoinduced in 1:1 Ca‚‚‚CH 3 F complexes formed in a supersonic expansion. The transition state of the reaction was explored by monitoring the electronically excited product, CaF, while scanning the laser that turns on the reaction. Moreover, the electronic structure of the Ca‚‚‚FCH 3 system was studied using ab initio methods by associating a pseudopotential description of the [Ca 2+ ] and [F 7+ ] cores, a core polarization operator on calcium, an extensive Gaussian basis and a treatment of the electronic problem at the CCSD(T) (ground state) and RSPT2 (excited states) level. In this contribution we present experimental results for the free complex and a comparison with the results of a previous experiment where the Ca‚‚‚CH 3 F complexes are deposited at the surface of large argon clusters. The ab initio calculations allowed an interpretation of the experimental data in terms of two reaction mechanisms, one involving a partial charge transfer state, the other involving the excitation of the C-F stretch in the CH 3 F moiety prior to charge transfer.

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“…In fact, the experimental detection of the products in the photoinitiated reaction of Li-HF presents some disadvantages since this system reacts at thermal energies. However, other related systems like Na-HF [20][21][22] and Ca-HF 42 candidates for such experiments on the ground electronic state.…”

Section: Introductionmentioning

confidence: 99%

“…Nowadays, there is an increasing number of theoretical works on these systems [15][16][17][18][19][20] due to the development of the methodology to describe the reaction dynamics of three atoms systems and to the appearance of accurate global potential energy surfaces ͑GPES͒ for some of these systems like LiϩHF 16,19 or NaϩHF. [20][21][22] Another source of valuable information is the reaction dynamics dependence on the relative velocity vectors between reactants and products and on the angular momenta involved in the process. This means that it is necessary to create and register the relative orientation of the different vector properties involved in a reactive collision, and their mutual correlations, to get a deeper insight about the reaction dynamics.…”

Section: Introductionmentioning

confidence: 99%

Quantum stereodynamics of the Li+HF(v,j) reactive collision for different initial states of the reagent

Lara

Aguado

Roncero

et al. 1998

The Journal of Chemical Physics

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The effect of the reagent initial state excitation on the reactive cross section in the LiϩHF(v, j) collision is analyzed for vϭ0, 1 and jϭ0, 1, 2 and 3. A wave packet treatment is used within the centrifugal sudden approximation on a global potential energy surface recently proposed ͓Aguado et al., J. Chem. Phys. 107, 10085 ͑1997͔͒. The reaction cross-section for vϭ0 is in good agreement with the available experimental data, and for low j shows oscillations as a function of the translational energy which are due to the structure of the transition state. For vϭ1 the reaction cross-section increases by a factor of 10-50 with respect to that of vϭ0. The influence of the alignment of the initial angular momentum on the reaction cross section is studied.

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Potential energy surfaces of NaFH

Cited by 68 publications

References 115 publications

Transition State Spectroscopy of the Photoinduced Ca + CH₃F Reaction. 1. A Cluster Isolated Chemical Reaction Study

Transition State Spectroscopy of the Photoinduced Ca + CH₃F Reaction. 1. A Cluster Isolated Chemical Reaction Study

Transition State Spectroscopy of the Photoinduced Ca + CH₃F Reaction. 2. Experimental and Ab Initio Studies of the Free Ca···FCH₃ Complex

Quantum stereodynamics of the Li+HF(v,j) reactive collision for different initial states of the reagent

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Potential energy surfaces of NaFH

Cited by 68 publications

References 115 publications

Transition State Spectroscopy of the Photoinduced Ca + CH3F Reaction. 1. A Cluster Isolated Chemical Reaction Study

Transition State Spectroscopy of the Photoinduced Ca + CH3F Reaction. 1. A Cluster Isolated Chemical Reaction Study

Transition State Spectroscopy of the Photoinduced Ca + CH3F Reaction. 2. Experimental and Ab Initio Studies of the Free Ca···FCH3 Complex

Quantum stereodynamics of the Li+HF(v,j) reactive collision for different initial states of the reagent

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Transition State Spectroscopy of the Photoinduced Ca + CH₃F Reaction. 1. A Cluster Isolated Chemical Reaction Study

Transition State Spectroscopy of the Photoinduced Ca + CH₃F Reaction. 1. A Cluster Isolated Chemical Reaction Study

Transition State Spectroscopy of the Photoinduced Ca + CH₃F Reaction. 2. Experimental and Ab Initio Studies of the Free Ca···FCH₃ Complex