Difference between revisions of "Fourier transform infrared spectroscopy"

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[[File:FTIR.jpg|thumb|Fourier transform infrared spectroscopy]]
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[[File:FTIR.jpg|thumb|Fourier transform infrared spectrometer with microscope]]
 
== Description ==
 
== Description ==
  
An analysis technique used to obtain an absorption or emission spectrum of vibrational changes in chemical bonds. A Fourier-transform infrared (FTIR) spectrometer simultaneously collects high-resolution spectral data over a wide spectral range, typically 4000-600 cm-1 (wavenumbers).  The vibrational changes that occur in chemical functional groups are unique and reproducible. The combination of these interactions with the infrared beam, represented as a spectrum, produce a unique pattern for each class of material. This confers a significant advantage over a dispersive spectrometer, which measures intensity over a narrow range of wavelengths at a time.   in the components in a solid, liquid, or gas
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An analysis technique used to obtain an absorption or emission spectrum of vibrational changes in chemical bonds. A Fourier-transform infrared (FTIR) spectrometer simultaneously collects high-resolution spectral data over a wide spectral range, typically 4000-600 cm-1 (wavenumbers).  The vibrational changes that occur in chemical functional groups are unique and reproducible. The combination of these interactions with the infrared beam, represented as a spectrum, produce a unique pattern for each class of material. When multiple materials are present the absorption patterns for each material are present in a additive pattern.  This often allows the elucidation of many of the component in a simple mixture,  Thus, infrared spectroscopy serves as a first step to more complete identification using other techniques. Most museum labs have their FTIR equipped with a microscope as well-as a reflective option. Thus small samples can be examined in transmitted or reflected light modes. A micro-attenuated total reflectance (ATR) attachment for the microscope is also available for studying the composition of thin coatings, such as the varnish on a painting or photograph.
 
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[[File:Indigo(443).PNG|thumb|IR spectrum of indigo<br>Forbes 443(MFA)]]
 
== Synonyms and Related Terms ==
 
== Synonyms and Related Terms ==
  

Latest revision as of 14:42, 19 June 2023

Fourier transform infrared spectrometer with microscope

Description

An analysis technique used to obtain an absorption or emission spectrum of vibrational changes in chemical bonds. A Fourier-transform infrared (FTIR) spectrometer simultaneously collects high-resolution spectral data over a wide spectral range, typically 4000-600 cm-1 (wavenumbers). The vibrational changes that occur in chemical functional groups are unique and reproducible. The combination of these interactions with the infrared beam, represented as a spectrum, produce a unique pattern for each class of material. When multiple materials are present the absorption patterns for each material are present in a additive pattern. This often allows the elucidation of many of the component in a simple mixture, Thus, infrared spectroscopy serves as a first step to more complete identification using other techniques. Most museum labs have their FTIR equipped with a microscope as well-as a reflective option. Thus small samples can be examined in transmitted or reflected light modes. A micro-attenuated total reflectance (ATR) attachment for the microscope is also available for studying the composition of thin coatings, such as the varnish on a painting or photograph.

IR spectrum of indigo
Forbes 443(MFA)

Synonyms and Related Terms

FT-IR; FTIR; Fourier-transform infrared spectroscopy; Fourier-Transformation Infrarot Spektroskopie (Deut.); spectroscopie infrarouge par transformée de Fourier (Fr.);

Resources and Citations

  • Wikipedia: Fourier-transform infrared spectroscopy (Accessed June 2023)
  • National Gallery of Art Scientific Research: Spectroscopy
  • M.Derrick, D.Stulik, J.Landry, Infrared Spectroscopy in Conservation Science, In Scientific Tools for Conservation series, Getty Conservation Institute, Los Angeles, 1999.