Lixia Wei scite author profile

Quantitative identification of isomers of hydrocarbon radicals in flames is critical to understanding soot formation. Isomers of C4H3 and C4H5 in flames fueled by allene, propyne, cyclopentene, or benzene are identified by comparison of the observed photoionization efficiencies with theoretical simulations based on calculated ionization energies and Franck-Condon factors. The experiments combine molecular-beam mass spectrometry (MBMS) with photoionization by tunable vacuum-ultraviolet synchrotron radiation. The theoretical simulations employ the rovibrational properties obtained with B3LYP/6-311++G(d,p) density functional theory and electronic energies obtained from QCISD(T) ab initio calculations extrapolated to the complete basis set limit. For C4H3, the comparisons reveal the presence of the resonantly stabilized CH2CCCH isomer (i-C4H3). For C4H5, contributions from the CH2CHCCH2 (i-C4H5) and some combination of the CH3CCCH2 and CH3CHCCH isomers are evident. Quantitative concentration estimates for these species are made for allene, cyclopentene, and benzene flames. Because of low Franck-Condon factors, sensitivity to n-isomers of both C4H3 and C4H5 is limited. Adiabatic ionization energies, as obtained from fits of the theoretical predictions to the experimental photoionization efficiency curves, are within the error bars of the QCISD(T) calculations. For i-C4H3 and i-C4H5, these fitted adiabatic ionization energies are (8.06 +/- 0.05) eV and (7.60 +/- 0.05) eV, respectively. The good agreement between the fitted and theoretical ionization thresholds suggests that the corresponding theoretically predicted radical heats of formation (119.1, 76.3, 78.7, and 79.1 kcal/mol at 0 K for i-C4H3, i-C4H5, CH3CCCH2, and CH3CHCCH, respectively) are also quite accurate.

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Flatbands and Emergent Ferromagnetic Ordering in Fe3Sn2 Kagome Lattices

Zhao

et al. 2018

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A flatband representing a highly degenerate and dispersionless manifold state of electrons may offer unique opportunities for the emergence of exotic quantum phases. To date, definitive experimental demonstrations of flatbands remain to be accomplished in realistic materials. Here, we present the first experimental observation of a striking flatband near the Fermi level in the layered Fe_{3}Sn_{2} crystal consisting of two Fe kagome lattices separated by a Sn spacing layer. The band flatness is attributed to the local destructive interferences of Bloch wave functions within the kagome lattices, as confirmed through theoretical calculations and modelings. We also establish high-temperature ferromagnetic ordering in the system and interpret the observed collective phenomenon as a consequence of the synergetic effect of electron correlation and the peculiar lattice geometry. Specifically, local spin moments formed by intramolecular exchange interaction are ferromagnetically coupled through a unique network of the hexagonal units in the kagome lattice. Our findings have important implications to exploit emergent flat-band physics in special lattice geometries.

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An experimental study of the premixed benzene/oxygen/argon flame with tunable synchrotron photoionization

Yang

Wei

et al. 2007

Proceedings of the Combustion Institute

136

134

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Identification of combustion intermediates in isomeric fuel-rich premixed butanol–oxygen flames at low pressure

Yang

Oßwald

et al. 2007

Combustion and Flame

196

114

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Isomeric identification of polycyclic aromatic hydrocarbons formed in combustion with tunable vacuum ultraviolet photoionization

Yang

et al. 2006

175

114

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Polycyclic aromatic hydrocarbons (PAHs) play important roles in the formation of soot from combustion. The PAHs are formed from incomplete combustion, and are thought to pose a particularly great risk to health. Isomeric identification of PAHs is a big challenge. In this article, we describe an apparatus that combines tunable synchrotron vacuum ultraviolet (VUV) photoionization with molecular-beam mass spectrometry for identifying isomers of PAHs formed in combustion. The isomers of PAHs can be distinguished with measurements of photoionization mass spectrometry and photoionization efficiency spectra. With its unique features, the apparatus provides superior mass and energy resolution and is potentially a powerful tool for the study of formation mechanisms of PAHs and soot in combustion.

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Identification of combustion intermediates in a low-pressure premixed laminar 2,5-dimethylfuran/oxygen/argon flame with tunable synchrotron photoionization

Huang

Yuan

et al. 2009

Combustion and Flame

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A comprehensive experimental study of low-pressure premixed C3-oxygenated hydrocarbon flames with tunable synchrotron photoionization

Wei

Tian

et al. 2008

Combustion and Flame

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Laminar burning velocities and flame instabilities of 2,5-dimethylfuran–air mixtures at elevated pressures

Huang

Wang

et al. 2011

Combustion and Flame

118

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Lixia Wei

Identification and Chemistry of C₄H₃ and C₄H₅ Isomers in Fuel-Rich Flames

Flatbands and Emergent Ferromagnetic Ordering in Fe3Sn2 Kagome Lattices

An experimental study of the premixed benzene/oxygen/argon flame with tunable synchrotron photoionization

Identification of combustion intermediates in isomeric fuel-rich premixed butanol–oxygen flames at low pressure

Isomeric identification of polycyclic aromatic hydrocarbons formed in combustion with tunable vacuum ultraviolet photoionization

Identification of combustion intermediates in a low-pressure premixed laminar 2,5-dimethylfuran/oxygen/argon flame with tunable synchrotron photoionization

A comprehensive experimental study of low-pressure premixed C3-oxygenated hydrocarbon flames with tunable synchrotron photoionization

Laminar burning velocities and flame instabilities of 2,5-dimethylfuran–air mixtures at elevated pressures

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Lixia Wei

Identification and Chemistry of C4H3 and C4H5 Isomers in Fuel-Rich Flames

Flatbands and Emergent Ferromagnetic Ordering in Fe3Sn2 Kagome Lattices

An experimental study of the premixed benzene/oxygen/argon flame with tunable synchrotron photoionization

Identification of combustion intermediates in isomeric fuel-rich premixed butanol–oxygen flames at low pressure

Isomeric identification of polycyclic aromatic hydrocarbons formed in combustion with tunable vacuum ultraviolet photoionization

Identification of combustion intermediates in a low-pressure premixed laminar 2,5-dimethylfuran/oxygen/argon flame with tunable synchrotron photoionization

A comprehensive experimental study of low-pressure premixed C3-oxygenated hydrocarbon flames with tunable synchrotron photoionization

Laminar burning velocities and flame instabilities of 2,5-dimethylfuran–air mixtures at elevated pressures

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Product

Resources

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Identification and Chemistry of C₄H₃ and C₄H₅ Isomers in Fuel-Rich Flames