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Adsorption of Amino Acids onto Diamond for Biomedical Applications

Om Adsorption of Amino Acids onto Diamond for Biomedical Applications

A range of DLC, Si-DLC, N-DLC and F-DLC films were prepared using ¿PECVD ¿with various film thicknesses (100-200) nm. The simplest amino acid ¿¿¿Glycine¿ is used as a model biological compound to ¿investigate surface adsorption ¿phenomena. Following exposure to solutions ¿containing glycine, surface characteristic has been ¿investigated by various techniques. XPS analysis showed the appearance of a new ¿peak at 400 eV ¿¿(N1s) and a change in the intensity of the C1s and O1s peaks. Both ¿Raman and ¿FTIR spectra showed bands related to functional groups ¿of glycine. ¿AFM analysis showed a change in surface roughness of the films with ¿the ratio of ¿rms values increasing following exposure to glycine. Changes in the ¿surface energy of the films were observed following ¿exposure to glycine with an ¿increase in the surface tension. Based on the kinetic study, the adsorption ¿process ¿obeyed the pseudo first order rate of reaction, and both ¿G and ¿H results showed that the ¿adsorption is ¿spontaneous and exothermic. The ¿Freundlich-Langmuir isotherm ¿suggest that the attachment of glycine is non-¿uniform and multilayer. ¿

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  • Språk:
  • Engelsk
  • ISBN:
  • 9783659473609
  • Bindende:
  • Paperback
  • Sider:
  • 296
  • Utgitt:
  • 11. oktober 2013
  • Dimensjoner:
  • 229x152x17 mm.
  • Vekt:
  • 435 g.
  • BLACK NOVEMBER
  Gratis frakt
Leveringstid: 2-4 uker
Forventet levering: 7. desember 2024

Beskrivelse av Adsorption of Amino Acids onto Diamond for Biomedical Applications

A range of DLC, Si-DLC, N-DLC and F-DLC films were prepared using ¿PECVD ¿with various film thicknesses (100-200) nm. The simplest amino acid ¿¿¿Glycine¿ is used as a model biological compound to ¿investigate surface adsorption ¿phenomena. Following exposure to solutions ¿containing glycine, surface characteristic has been ¿investigated by various techniques. XPS analysis showed the appearance of a new ¿peak at 400 eV ¿¿(N1s) and a change in the intensity of the C1s and O1s peaks. Both ¿Raman and ¿FTIR spectra showed bands related to functional groups ¿of glycine. ¿AFM analysis showed a change in surface roughness of the films with ¿the ratio of ¿rms values increasing following exposure to glycine. Changes in the ¿surface energy of the films were observed following ¿exposure to glycine with an ¿increase in the surface tension. Based on the kinetic study, the adsorption ¿process ¿obeyed the pseudo first order rate of reaction, and both ¿G and ¿H results showed that the ¿adsorption is ¿spontaneous and exothermic. The ¿Freundlich-Langmuir isotherm ¿suggest that the attachment of glycine is non-¿uniform and multilayer. ¿

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