Standard

Electron-driven processes in enantiomeric forms of glutamic acid initiated by low-energy resonance electron attachment. / Пшеничнюк, С.А.; Асфандиаров, Н.Л.; Рахмеев, Рустам Габдулшагитович; Комолов, Алексей Сергеевич; Терещенко, Олег.

In: The Journal of Chemical Physics, Vol. 161, No. 11, 114303, 16.09.2024.

Research output: Contribution to journalArticlepeer-review

Harvard

Пшеничнюк, СА, Асфандиаров, НЛ, Рахмеев, РГ, Комолов, АС & Терещенко, О 2024, 'Electron-driven processes in enantiomeric forms of glutamic acid initiated by low-energy resonance electron attachment', The Journal of Chemical Physics, vol. 161, no. 11, 114303. https://doi.org/10.1063/5.0232036

APA

Пшеничнюк, С. А., Асфандиаров, Н. Л., Рахмеев, Р. Г., Комолов, А. С., & Терещенко, О. (2024). Electron-driven processes in enantiomeric forms of glutamic acid initiated by low-energy resonance electron attachment. The Journal of Chemical Physics, 161(11), [114303]. https://doi.org/10.1063/5.0232036

Vancouver

Пшеничнюк СА, Асфандиаров НЛ, Рахмеев РГ, Комолов АС, Терещенко О. Electron-driven processes in enantiomeric forms of glutamic acid initiated by low-energy resonance electron attachment. The Journal of Chemical Physics. 2024 Sep 16;161(11). 114303. https://doi.org/10.1063/5.0232036

Author

Пшеничнюк, С.А. ; Асфандиаров, Н.Л. ; Рахмеев, Рустам Габдулшагитович ; Комолов, Алексей Сергеевич ; Терещенко, Олег. / Electron-driven processes in enantiomeric forms of glutamic acid initiated by low-energy resonance electron attachment. In: The Journal of Chemical Physics. 2024 ; Vol. 161, No. 11.

BibTeX

@article{e03031c1e3db4c4596a996e8a0b12e8a,
title = "Electron-driven processes in enantiomeric forms of glutamic acid initiated by low-energy resonance electron attachment",
abstract = "Low-energy (0-14 eV) resonance electron interaction and fragment species produced by dissociative electron attachment (DEA) for enantiomeric forms of glutamic acid (Glu) are studied under gas-phase conditions by means of DEA spectroscopy and density functional theory calculations. Contrary to a series of amino acids studied earlier employing the DEA technique, the most abundant species are not associated with the elimination of a hydrogen atom from the parent molecular negative ion. Besides this less intense closed-shell [Glu - H]- fragment, only two mass-selected negative ions, [Glu - 19]- and [Glu - 76]-, are detected within the same electron energy region, with the yield maximum observed at around 0.9 eV. This value matches well the energy of vertical electron attachment into the lowest normally empty π* COOH molecular orbital of Glu located at 0.88 eV according to the present B3LYP/6-31G(d) calculations. Although the detection of asymmetric DEA properties a priori is not accessible under the present experimental conditions, {"}chirality non-conservation{"} can be associated with some decay channels. Evidently, the measured spectra for the L- and D-forms are found to be identical, the results, nevertheless, being of interest for the forthcoming experiments utilizing spin-polarized electron beam as a chiral factor in the framework of conventional DEA technique.",
author = "С.А. Пшеничнюк and Н.Л. Асфандиаров and Рахмеев, {Рустам Габдулшагитович} and Комолов, {Алексей Сергеевич} and Олег Терещенко",
year = "2024",
month = sep,
day = "16",
doi = "10.1063/5.0232036",
language = "English",
volume = "161",
journal = "Journal of Chemical Physics",
issn = "0021-9606",
publisher = "American Institute of Physics",
number = "11",

}

RIS

TY - JOUR

T1 - Electron-driven processes in enantiomeric forms of glutamic acid initiated by low-energy resonance electron attachment

AU - Пшеничнюк, С.А.

AU - Асфандиаров, Н.Л.

AU - Рахмеев, Рустам Габдулшагитович

AU - Комолов, Алексей Сергеевич

AU - Терещенко, Олег

PY - 2024/9/16

Y1 - 2024/9/16

N2 - Low-energy (0-14 eV) resonance electron interaction and fragment species produced by dissociative electron attachment (DEA) for enantiomeric forms of glutamic acid (Glu) are studied under gas-phase conditions by means of DEA spectroscopy and density functional theory calculations. Contrary to a series of amino acids studied earlier employing the DEA technique, the most abundant species are not associated with the elimination of a hydrogen atom from the parent molecular negative ion. Besides this less intense closed-shell [Glu - H]- fragment, only two mass-selected negative ions, [Glu - 19]- and [Glu - 76]-, are detected within the same electron energy region, with the yield maximum observed at around 0.9 eV. This value matches well the energy of vertical electron attachment into the lowest normally empty π* COOH molecular orbital of Glu located at 0.88 eV according to the present B3LYP/6-31G(d) calculations. Although the detection of asymmetric DEA properties a priori is not accessible under the present experimental conditions, "chirality non-conservation" can be associated with some decay channels. Evidently, the measured spectra for the L- and D-forms are found to be identical, the results, nevertheless, being of interest for the forthcoming experiments utilizing spin-polarized electron beam as a chiral factor in the framework of conventional DEA technique.

AB - Low-energy (0-14 eV) resonance electron interaction and fragment species produced by dissociative electron attachment (DEA) for enantiomeric forms of glutamic acid (Glu) are studied under gas-phase conditions by means of DEA spectroscopy and density functional theory calculations. Contrary to a series of amino acids studied earlier employing the DEA technique, the most abundant species are not associated with the elimination of a hydrogen atom from the parent molecular negative ion. Besides this less intense closed-shell [Glu - H]- fragment, only two mass-selected negative ions, [Glu - 19]- and [Glu - 76]-, are detected within the same electron energy region, with the yield maximum observed at around 0.9 eV. This value matches well the energy of vertical electron attachment into the lowest normally empty π* COOH molecular orbital of Glu located at 0.88 eV according to the present B3LYP/6-31G(d) calculations. Although the detection of asymmetric DEA properties a priori is not accessible under the present experimental conditions, "chirality non-conservation" can be associated with some decay channels. Evidently, the measured spectra for the L- and D-forms are found to be identical, the results, nevertheless, being of interest for the forthcoming experiments utilizing spin-polarized electron beam as a chiral factor in the framework of conventional DEA technique.

UR - https://www.mendeley.com/catalogue/3e97719d-cbbc-3100-908d-db7333a6d28e/

U2 - 10.1063/5.0232036

DO - 10.1063/5.0232036

M3 - Article

VL - 161

JO - Journal of Chemical Physics

JF - Journal of Chemical Physics

SN - 0021-9606

IS - 11

M1 - 114303

ER -

ID: 125656771