Xian-Fang Yue scite author profile

The influence of vibrational excitation on chemical reaction dynamics is well understood in triatomic reactions, but the multiple modes in larger systems complicate efforts toward the validation of a predictive framework. Although recent experiments support selective vibrational enhancements of reactivities, such studies generally do not properly account for the differing amounts of total energy deposited by the excitation of different modes. By precise tuning of translational energies, we measured the relative efficiencies of vibration and translation in promoting the gas-phase reaction of CHD3 with the Cl atom to form HCl and CD3. Unexpectedly, we observed that C-H stretch excitation is no more effective than an equivalent amount of translational energy in raising the overall reaction efficiency; CD3 bend excitation is only slightly more effective. However, vibrational excitation does have a strong impact on product state and angular distributions, with C-H stretch-excited reactants leading to predominantly forward-scattered, vibrationally excited HCl.

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OH Fragment from Benzoic Acid Monomer Photolysis: Threshold and Product State Distribution

Wei

Sun

Yue

et al. 2008

J. Phys. Chem. A

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Photodissociation dynamics of benzoic acid monomer (BAM) at different ultraviolet excitation wavelengths (280-295 nm) has been investigated. The nascent OH product state distributions were measured using the laser-induced fluorescence (LIF) technique. The rotational state distributions, the Lambda-doublet-state ratio, and spin-orbit state distributions of the OH fragment were also measured at 280-294 nm. The OH fragments are vibrationally cold, and their rotational state distributions are peaked at J'' = 3.5 at each photolysis wavelength. No LIF signal of OH fragments was observed at 295 nm. The photodissociation threshold is determined to be 102.5-103.9 kcal/mol for OH channel. The dissociative state and mechanism have been discussed for OH produced from the photodissociation of BAM.

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The dynamics of OH channel in the 266 and 355nm photodissociation of 2-nitrophenol

Wei

Yin

Sun

et al. 2008

Chemical Physics Letters

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Xian-Fang Yue

Do Vibrational Excitations of CHD ₃ Preferentially Promote Reactivity Toward the Chlorine Atom?

OH Fragment from Benzoic Acid Monomer Photolysis: Threshold and Product State Distribution

The dynamics of OH channel in the 266 and 355nm photodissociation of 2-nitrophenol

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Xian-Fang Yue

Do Vibrational Excitations of CHD 3 Preferentially Promote Reactivity Toward the Chlorine Atom?

OH Fragment from Benzoic Acid Monomer Photolysis: Threshold and Product State Distribution

The dynamics of OH channel in the 266 and 355nm photodissociation of 2-nitrophenol

Contact Info

Product

Resources

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Do Vibrational Excitations of CHD ₃ Preferentially Promote Reactivity Toward the Chlorine Atom?