Li Chen Chen scite author profile

Li Chen Chen

2Publications

34Citation Statements Received

121Citation Statements Given

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105

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Conway School of Landscape Design, University of Central Arkansas

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Near-Thermal Reactions of Au⁺(¹S,³D) with CH₃X (X = F,Cl)

et al. 2012

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Reactions of Au(+)((1)S) and Au(+)((3)D) with CH(3)F and CH(3)Cl have been carried out in a drift cell in He at a pressure of 3.5 Torr at both room temperature and reduced temperatures in order to explore the influence of the electronic state of the metal on reaction outcomes. State-specific product channels and overall two-body rate constants were identified using electronic state chromatography. These results indicate that Au(+)((1)S) reacts to yield an association product in addition to AuCH(2)(+) in parallel steps with both neutrals. Product distributions for association vs HX elimination were determined to be 79% association/21% HX elimination for X = F and 50% association/50% HX elimination when X = Cl. Reaction of Au(+)((3)D) with CH(3)F also results in HF elimination, which in this case is thought to produce (3)AuCH(2)(+). With CH(3)Cl, Au(+)((3)D) reacts to form AuCH(3)(+) and CH(3)Cl(+) in parallel steps. An additional product channel initiated by Au(+)((3)D) is also observed with both methyl halides, which yields CH(2)X(+) as a higher-order product. Kinetic measurements indicate that the reaction efficiency for both Au(+) states is significantly greater with CH(3)Cl than with CH(3)F. The observed two-body rate constant for depletion of Au(+)((1)S) by CH(3)F represents less than 5% of the limiting rate constant predicted by the average dipole orientation model (ADO) at room temperature and 226 K, whereas CH(3)Cl reacts with Au(+)((1)S) at the ADO limit at both room temperature and 218 K. Rate constants for depletion of Au(+)((3)D) by CH(3)F and CH(3)Cl were measured at 226 and 218 K respectively, and indicate that Au(+)((3)D) is consumed at approximately 2% of the ADO limit by CH(3)F and 69% of the ADO limit by CH(3)Cl. Product formation and overall efficiency for all four reactions are consistent with previous experimental results and available theoretical models.

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Probing Ni+ metastable state production in sputtering glow discharges with the use of diagnostic reactions

Taylor

Fancher

Chen

et al. 2013

International Journal of Mass Spectrometry

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Li Chen Chen

Near-Thermal Reactions of Au⁺(¹S,³D) with CH₃X (X = F,Cl)

Probing Ni+ metastable state production in sputtering glow discharges with the use of diagnostic reactions

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Li Chen Chen

Near-Thermal Reactions of Au+(1S,3D) with CH3X (X = F,Cl)

Probing Ni+ metastable state production in sputtering glow discharges with the use of diagnostic reactions

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Near-Thermal Reactions of Au⁺(¹S,³D) with CH₃X (X = F,Cl)