Advanced experimental methods toward understanding biophysicochemical interactions of interfacial biomolecules by using sum frequency generation vibrational spectroscopy

Sum frequency generation vibrational spectroscopy (SFG-VS) has been demonstrated to be a powerful technique to study the interfacial structures and interactions of biomolecules at the molecular level. Yet most previous studies mainly collected the SFG spectra in the frequency range of 1500–4000 cm −...

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Published inScience China. Chemistry Vol. 57; no. 12; pp. 1646 - 1661
Main Authors Ye, ShuJi, Luo, Yi
Format Journal Article
LanguageEnglish
Published Heidelberg Science China Press 01.12.2014
Springer Nature B.V
Subjects
Biomolecules
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Experimental methods
Frequency ranges
Polaritons
Research methodology
Reviews
Spectrum analysis
Vibration mode
Vibrational spectra
protein
amide III
chiral polarization
3D interfacial structures
cholesterol
fingerprint region
surface plasmon polaritons
time-resolved
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Abstract Sum frequency generation vibrational spectroscopy (SFG-VS) has been demonstrated to be a powerful technique to study the interfacial structures and interactions of biomolecules at the molecular level. Yet most previous studies mainly collected the SFG spectra in the frequency range of 1500–4000 cm −1 , which is not always sufficient to describe the detailed interactions at surface and interface. Thorough knowledge of the complex biophysicochemical interactions between biomolecules and surface requires new ideas and advanced experimental methods for collecting SFG vibrational spectra. We introduced some advanced methods recently exploited by our group and others, including (1) detection of vibration modes in the fingerprint region; (2) combination of chiral and achiral polarization measurements; (3) SFG coupled with surface plasmon polaritons (SPPs); (4) imaging and microscopy approaches; and (5) ultrafast time-resolved SFG measurements. The technique that we integrated with these advanced methods may help to give a detailed and high-spatial-resolution 3D picture of interfacial biomolecules.
AbstractList Sum frequency generation vibrational spectroscopy (SFG-VS) has been demonstrated to be a powerful technique to study the interfacial structures and interactions of biomolecules at the molecular level. Yet most previous studies mainly collected the SFG spectra in the frequency range of 1500–4000 cm−1, which is not always sufficient to describe the detailed interactions at surface and interface. Thorough knowledge of the complex biophysicochemical interactions between biomolecules and surface requires new ideas and advanced experimental methods for collecting SFG vibrational spectra. We introduced some advanced methods recently exploited by our group and others, including (1) detection of vibration modes in the fingerprint region; (2) combination of chiral and achiral polarization measurements; (3) SFG coupled with surface plasmon polaritons (SPPs); (4) imaging and microscopy approaches; and (5) ultrafast time-resolved SFG measurements. The technique that we integrated with these advanced methods may help to give a detailed and high-spatial-resolution 3D picture of interfacial biomolecules.
Sum frequency generation vibrational spectroscopy (SFG-VS) has been demonstrated to be a powerful technique to study the interfacial structures and interactions of biomolecules at the molecular level. Yet most previous studies mainly collected the SFG spectra in the frequency range of 1500–4000 cm −1 , which is not always sufficient to describe the detailed interactions at surface and interface. Thorough knowledge of the complex biophysicochemical interactions between biomolecules and surface requires new ideas and advanced experimental methods for collecting SFG vibrational spectra. We introduced some advanced methods recently exploited by our group and others, including (1) detection of vibration modes in the fingerprint region; (2) combination of chiral and achiral polarization measurements; (3) SFG coupled with surface plasmon polaritons (SPPs); (4) imaging and microscopy approaches; and (5) ultrafast time-resolved SFG measurements. The technique that we integrated with these advanced methods may help to give a detailed and high-spatial-resolution 3D picture of interfacial biomolecules.
Author Ye, ShuJi
Luo, Yi
Author_xml – sequence: 1
  givenname: ShuJi
  surname: Ye
  fullname: Ye, ShuJi
  email: shujiye@ustc.edu.cn
  organization: Hefei National Laboratory for Physical Sciences at the Microscale and Department of Chemical Physics, University of Science and Technology of China, Synergetic Innovation Center of Quantum Information & Quantum Physics, University of Science and Technology of China
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  givenname: Yi
  surname: Luo
  fullname: Luo, Yi
  organization: Hefei National Laboratory for Physical Sciences at the Microscale and Department of Chemical Physics, University of Science and Technology of China, Synergetic Innovation Center of Quantum Information & Quantum Physics, University of Science and Technology of China
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Issue 12
Keywords protein
amide III
chiral polarization
3D interfacial structures
cholesterol
fingerprint region
surface plasmon polaritons
time-resolved
Language English
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  start-page: 3482
  year: 2006
  ident: 5233_CR144
  publication-title: J Am Chem Soc
  doi: 10.1021/ja057775y
  contributor:
    fullname: N Ji
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Snippet Sum frequency generation vibrational spectroscopy (SFG-VS) has been demonstrated to be a powerful technique to study the interfacial structures and...
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springer
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StartPage 1646
SubjectTerms Biomolecules
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Experimental methods
Frequency ranges
Polaritons
Research methodology
Reviews
Spectrum analysis
Vibration mode
Vibrational spectra
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Title Advanced experimental methods toward understanding biophysicochemical interactions of interfacial biomolecules by using sum frequency generation vibrational spectroscopy
URI https://link.springer.com/article/10.1007/s11426-014-5233-5
https://www.proquest.com/docview/2918650458
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