Vung Xuan Bui scite author profile

Vung Xuan Bui

2Publications

60Citation Statements Received

82Citation Statements Given

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KU Leuven

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Absolute Rate Coefficient of the OH + CH₃C(O)OH Reaction at T = 287−802 K. The Two Faces of Pre-reactive H-Bonding

et al. 2006

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The rate constants for the reaction OH + CH3C(O)OH --> products (1) were determined over the temperature range 287-802 K at 50 and 100 Torr of Ar or N2 bath gas using pulsed laser photolysis generation of OH by CH3C(O)OH photolysis at 193 nm coupled with OH detection by pulsed laser-induced fluorescence. The rate coefficient displays a complex temperature dependence with a sharp minimum at 530 K, indicating the competition between a reaction proceeding through a pre-reactive H-bonded complex to form CH3C(O)O + H2O, expected to prevail at low temperatures, and a direct methyl-H abstraction channel leading to CH2C(O)OH + H2O, which should dominate at high temperatures. The temperature dependence of the rate constant can be described adequately by k1(287-802 K) = 2.9 x 10(-9) exp{-6030 K/T} + 1.50 x 10(-13) exp{515 K/T} cm3 molecule(-1)(s-1), with a value of (8.5 +/- 0.9) x 10-13 cm3 molecule(-1)(s-1) at 298 K. The steep increase in rate constant in the range 550-800 K, which is reported for the first time, implies that direct abstraction of a methyl-H becomes the dominant pathway at temperatures greater than 550 K. However, the data indicates that up to about 800 K direct methyl-H abstraction remains adversely affected by the long-range H-bonding attraction between the approaching OH radical and the carboxyl -C(O)OH functionality.

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Enrichment of soy isoflavone extracts through macroporous resin for characterization of toxicity and estrogenic activities

Tran

Truong²,

Nguyen³

et al. 2022

J Food Sci Technol

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Vung Xuan Bui

Absolute Rate Coefficient of the OH + CH₃C(O)OH Reaction at T = 287−802 K. The Two Faces of Pre-reactive H-Bonding

Enrichment of soy isoflavone extracts through macroporous resin for characterization of toxicity and estrogenic activities

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Vung Xuan Bui

Absolute Rate Coefficient of the OH + CH3C(O)OH Reaction at T = 287−802 K. The Two Faces of Pre-reactive H-Bonding

Enrichment of soy isoflavone extracts through macroporous resin for characterization of toxicity and estrogenic activities

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Product

Resources

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Absolute Rate Coefficient of the OH + CH₃C(O)OH Reaction at T = 287−802 K. The Two Faces of Pre-reactive H-Bonding