Influence of reagent vibration on the stereodynamics of the Li + HF → LiF + H reaction

李淑娟,; 石英,; 解廷献,; 金明星,

doi:10.1088/1674-1056/21/1/013401

Cited by 14 publications

(11 citation statements)

References 38 publications

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“…Theoretical studies like the exact quantum probabilities for Li+HF and its isotopic variants have been reported by Laganà [12]. In 2012, Li et al have presented the reagent vibration effect for the reaction [13].…”

Section: Introductionmentioning

confidence: 97%

Theoretical Study of Reagent Rotational Excitation Effect on the Stereodynamics of H + LiF→HF+Li Reaction

Xie¹,

Zhang²,

Shi³

et al. 2014

Chinese Journal of Chemical Physics

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The reagent rotational excitation effect on the stereodynamics of H+LiF→HF+Li is calculated by means of the quasi-classical trajectory method on the Aguado-Paniagua2-potential energy surface (AP2-PES) constructed by Aguado et al. [J. Chem. Phys. 106, 1013 (1997)]. The angular distributions of vector correlations between products and reactants, P (θ r) and P (φ r) are presented. Meanwhile, the four polarization-dependent generalized differential cross sections are computed. The results indicate that the reagent rotational quantum numbers have impact on the vector properties of the title reaction. In addition, the reaction probability has been calculated as well.

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Section: Introductionmentioning

confidence: 97%

Theoretical Study of Reagent Rotational Excitation Effect on the Stereodynamics of H + LiF→HF+Li Reaction

Xie¹,

Zhang²,

Shi³

et al. 2014

Chinese Journal of Chemical Physics

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“…[11] Recently, the stereodynamical code developed by Han et al [7][8][9][10] has been renewed and used successfully in many chemical reactions. [12][13][14][15][16][17] In the present work, we use this computational code to explore the product rotational polarization in the title reaction.…”

Section: Introductionmentioning

confidence: 99%

Effect of ro-vibrational excitation of NeH⁺on the stereodynamics for the reactions H+NeH⁺(v= 1−3,j= 1,3,5) → H⁺₂+ Ne

et al. 2013

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“…By using the QCT method, Li et al investigated the vibrational effect on the Li+HF reaction. [31] Later, Yue et al studied the isotopic effect where the product polarization showed decreasing trends with the increase of the mass. [32] As we know, the reverse reaction is also important for obtaining the reaction mechanism.…”

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confidence: 99%

Quasiclassical-Trajectory Investigation on the Isotopic Effect of H(D)+LiF→H(D)F+Li (v= 0–4,j= 0) Reaction

Xie

Zhang

Shi

et al. 2015

Chinese Phys. Lett.

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A quasi-classical trajectory (QCT) method is employed to investigate the scalar properties and vector correlations of H+LiF→HF+Li and D+LiF→DF+Li reactions. The collision energy (𝐸 col = 4-25 kcal/mol) and vibrational excitation effects (𝑣 = 0-4) are studied by using the Aguado-Paniagua2-potential energy surface (AP2-PES) [J. Chem. Phys. 107 (1997) 10085]. The reaction probability, cross section and rate constant are calculated, which demonstrate obvious energy and vibrational excitation dependences in the probability, cross section, and a high-temperature region of the rate constant. In addition, two product angular distributions 𝑃 (𝜃𝑟) and 𝑃 (𝜑𝑟) are calculated to facilitate a deeper insight into vector correlations. The H+LiF→HF+Li and D+LiF→DF+Li reactions reveal strong isotopic effects. Moreover, these scalar and vector results of both the reactions show sensitive behaviors to the changes of vibrational levels and the collision energy.

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Influence of reagent vibration on the stereodynamics of the Li + HF → LiF + H reaction

Cited by 14 publications

References 38 publications

Theoretical Study of Reagent Rotational Excitation Effect on the Stereodynamics of H + LiF→HF+Li Reaction

Theoretical Study of Reagent Rotational Excitation Effect on the Stereodynamics of H + LiF→HF+Li Reaction

Effect of ro-vibrational excitation of NeH⁺on the stereodynamics for the reactions H+NeH⁺(v= 1−3,j= 1,3,5) → H⁺₂+ Ne

Quasiclassical-Trajectory Investigation on the Isotopic Effect of H(D)+LiF→H(D)F+Li (v= 0–4,j= 0) Reaction

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Influence of reagent vibration on the stereodynamics of the Li + HF → LiF + H reaction

Cited by 14 publications

References 38 publications

Theoretical Study of Reagent Rotational Excitation Effect on the Stereodynamics of H + LiF→HF+Li Reaction

Theoretical Study of Reagent Rotational Excitation Effect on the Stereodynamics of H + LiF→HF+Li Reaction

Effect of ro-vibrational excitation of NeH+on the stereodynamics for the reactions H+NeH+(v= 1−3,j= 1,3,5) → H+2+ Ne

Quasiclassical-Trajectory Investigation on the Isotopic Effect of H(D)+LiF→H(D)F+Li (v= 0–4,j= 0) Reaction

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Effect of ro-vibrational excitation of NeH⁺on the stereodynamics for the reactions H+NeH⁺(v= 1−3,j= 1,3,5) → H⁺₂+ Ne