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Optical spectroscopy as a tool for battery research. / Köhler, Thomas; Hanzig, Juliane; Koroteev, Victor.

в: Physical Sciences Reviews, Том 4, № 2, 20170154, 01.02.2019.

Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование

Harvard

Köhler, T, Hanzig, J & Koroteev, V 2019, 'Optical spectroscopy as a tool for battery research', Physical Sciences Reviews, Том. 4, № 2, 20170154. https://doi.org/10.1515/psr-2017-0154

APA

Köhler, T., Hanzig, J., & Koroteev, V. (2019). Optical spectroscopy as a tool for battery research. Physical Sciences Reviews, 4(2), [20170154]. https://doi.org/10.1515/psr-2017-0154

Vancouver

Köhler T, Hanzig J, Koroteev V. Optical spectroscopy as a tool for battery research. Physical Sciences Reviews. 2019 февр. 1;4(2):20170154. doi: 10.1515/psr-2017-0154

Author

Köhler, Thomas ; Hanzig, Juliane ; Koroteev, Victor. / Optical spectroscopy as a tool for battery research. в: Physical Sciences Reviews. 2019 ; Том 4, № 2.

BibTeX

@article{0021d777696143dea8768763f36ab085,

title = "Optical spectroscopy as a tool for battery research",

abstract = "The following compendium reviews the development and establishment of optical spectroscopy as an analytical method for battery material components and electrochemical reactions. The interaction of light with matter is a sensitive and non-destructive way to characterize any sample state, i.e. solids, liquids or gases. Special attention is devoted to infrared and ultraviolet spectroscopy, covering a wavelength range from 12 μm to 200 nm, as well as Raman scattering spectroscopy, in order to excite different vibrational/rotational lattice modes and transitions of valence electrons. This allows an insight into structural properties, chemical composition, oxidation states or kinetic processes. The development of spectroelectrochemical in situ cells allows the investigation of various battery components, e.g. working and counter electrode, separator, electrolyte as well as interfaces between these components. These powerful tools allow the evaluation of the functionality, stability and safety aspects of an electrochemical storage cell.",

keywords = "battery materials, Fourier transform infrared spectroscopy, in situ spectroscopy, intercalation, Raman spectroscopy, solid electrolyte interface (SEI), surface-enhanced Raman scattering (SERS), tip-enhanced Raman spectroscopy (TERS), UV/Vis spectroscopy, PROPYLENE CARBONATE, SOLID-ELECTROLYTE INTERPHASE, FTIR SPECTROSCOPY, VINYLENE CARBONATE, DEPTH RESOLUTION, GRAPHITIC MATERIALS, LI-INTERCALATION, LITHIUM-ION BATTERIES, IN-SITU RAMAN, ETHYLENE CARBONATE",

author = "Thomas K{\"o}hler and Juliane Hanzig and Victor Koroteev",

year = "2019",

month = feb,

day = "1",

doi = "10.1515/psr-2017-0154",

language = "English",

volume = "4",

journal = "Physical Sciences Reviews",

issn = "2365-659X",

publisher = "de Gruyter",

number = "2",

}

RIS

TY - JOUR

T1 - Optical spectroscopy as a tool for battery research

AU - Köhler, Thomas

AU - Hanzig, Juliane

AU - Koroteev, Victor

PY - 2019/2/1

Y1 - 2019/2/1

N2 - The following compendium reviews the development and establishment of optical spectroscopy as an analytical method for battery material components and electrochemical reactions. The interaction of light with matter is a sensitive and non-destructive way to characterize any sample state, i.e. solids, liquids or gases. Special attention is devoted to infrared and ultraviolet spectroscopy, covering a wavelength range from 12 μm to 200 nm, as well as Raman scattering spectroscopy, in order to excite different vibrational/rotational lattice modes and transitions of valence electrons. This allows an insight into structural properties, chemical composition, oxidation states or kinetic processes. The development of spectroelectrochemical in situ cells allows the investigation of various battery components, e.g. working and counter electrode, separator, electrolyte as well as interfaces between these components. These powerful tools allow the evaluation of the functionality, stability and safety aspects of an electrochemical storage cell.

AB - The following compendium reviews the development and establishment of optical spectroscopy as an analytical method for battery material components and electrochemical reactions. The interaction of light with matter is a sensitive and non-destructive way to characterize any sample state, i.e. solids, liquids or gases. Special attention is devoted to infrared and ultraviolet spectroscopy, covering a wavelength range from 12 μm to 200 nm, as well as Raman scattering spectroscopy, in order to excite different vibrational/rotational lattice modes and transitions of valence electrons. This allows an insight into structural properties, chemical composition, oxidation states or kinetic processes. The development of spectroelectrochemical in situ cells allows the investigation of various battery components, e.g. working and counter electrode, separator, electrolyte as well as interfaces between these components. These powerful tools allow the evaluation of the functionality, stability and safety aspects of an electrochemical storage cell.

KW - battery materials

KW - Fourier transform infrared spectroscopy

KW - in situ spectroscopy

KW - intercalation

KW - Raman spectroscopy

KW - solid electrolyte interface (SEI)

KW - surface-enhanced Raman scattering (SERS)

KW - tip-enhanced Raman spectroscopy (TERS)

KW - UV/Vis spectroscopy

KW - PROPYLENE CARBONATE

KW - SOLID-ELECTROLYTE INTERPHASE

KW - FTIR SPECTROSCOPY

KW - VINYLENE CARBONATE

KW - DEPTH RESOLUTION

KW - GRAPHITIC MATERIALS

KW - LI-INTERCALATION

KW - LITHIUM-ION BATTERIES

KW - IN-SITU RAMAN

KW - ETHYLENE CARBONATE

UR - http://www.scopus.com/inward/record.url?scp=85077603387&partnerID=8YFLogxK

U2 - 10.1515/psr-2017-0154

DO - 10.1515/psr-2017-0154

M3 - Article

AN - SCOPUS:85077603387

VL - 4

JO - Physical Sciences Reviews

JF - Physical Sciences Reviews

SN - 2365-659X

IS - 2

M1 - 20170154

ER -

ID: 24412841