User menu

The micro-Raman spectroscopy, a useful tool to determine the degree of conversion of light-activated composite resins.

Bibliographic reference Pianelli, C ; Devaux, Jacques ; Bebelman, Sabine ; Leloup, Gaëtane. The micro-Raman spectroscopy, a useful tool to determine the degree of conversion of light-activated composite resins.. In: Journal of biomedical materials research, Vol. 48, no. 5, p. 675-81 (1999)
Permanent URL
  1. Cook W. D., Standish P. M., Cure of resin based restorative materials. II. White light photopolymerized resins, 10.1111/j.1834-7819.1983.tb02491.x
  2. Ruyter Ivar Eystein, Øysæd Harry, Conversion in different depths of ultraviolet and visible light activated composite materials, 10.3109/00016358209012726
  3. Asmussen, Scand J Dent Res, 90, 490 (1982)
  4. Caughman W.Frank, Caughman Gretchen B., Shiflett Robert A., Rueggeberg Fred, Schuster George S., Correlation of cytotoxicity, filler loading and curing time of dental composites, 10.1016/0142-9612(91)90022-3
  5. Denyer, J Dent Res, 61, 271 (1982)
  6. Ferracane J.L., Aday P., Matsumoto H., Marker V.A., Relationship between shade and depth of cure for light-activated dental composite resins, 10.1016/s0109-5641(86)80057-4
  7. Matsumoto H., Gres J.E., Marker V.A., Okabe T., Ferracane J.L., Harvey G.A., Depth of cure of visible light-cured resin: Clinical simulation, 10.1016/0022-3913(86)90034-x
  8. Skeeters, J Dent Res, 62, 219 (1983)
  9. Stillwater, J Dent Res, 62, 218 (1983)
  10. Swartz, J Dent Res, 106, 634 (1983)
  11. Tirtha R., Fan P.L., Dennison J.B., Powers J.M., In vitro Depth of Cure of Photo-activated Composites, 10.1177/00220345820610101601
  12. Johnston W.M., Leung R.L., Fan P.L., A mathematical model for post-irradiation hardening of photoactivated composite resins, 10.1016/s0109-5641(85)80017-8
  13. Backer, Quintessence Int, 10, 693 (1985)
  14. Newman Sheldon M., Murray G. Allen, Yates Jere L., Visible lights and visible light-activated composite resins, 10.1016/0022-3913(83)90161-0
  15. CHUNG K., GREENER E. H., Degree of conversion of seven visible light-cured posterior composites, 10.1111/j.1365-2842.1988.tb00192.x
  16. Eliades G.C., Vougiouklakis G.J., Caputo A.A., Degree of double bond conversion in light-cured composites, 10.1016/s0109-5641(87)80055-6
  17. Ferracane J.L., Greener E.H., Fourier Transform Infrared Analysis of Degree of Polymerization in Unfilled Resins—Methods Comparison, 10.1177/00220345840630081901
  18. Rueggeberg F.A., Craig R.G., Correlation of Parameters used to Estimate Monomer Conversion in a Light-cured Composite, 10.1177/00220345880670060801
  19. Rueggeberg F.A., Hashinger D.T., Fairhurst C.W., Calibration of FTIR conversion analysis of contemporary dental resin composites, 10.1016/s0109-5641(05)80005-3
  20. Louden J. D., Roberts T. A., Cure profiles of light-cured dental composites by Raman spectroscopy, 10.1002/jrs.1250140514
  21. Roberts, J Dent Res, 63, 293 (1984)
  22. Leung, J Dent Res, 63, 292 (1984)
  23. DeWald J.P., Ferracane J.L., A Comparison of Four Modes of Evaluating Depth of Cure of Light-activated Composites, 10.1177/00220345870660030401
  24. Burtscher P., Stability of radicals in cured composite materials, 10.1016/0109-5641(93)90064-w
  25. Cross-linking. In: Encyclopedia of Polymer Science and Engineering. Vol. 4. New York: Wiley; 1988. p 352-355.
  26. Park, Oper Dent, 21, 213 (1996)
  27. Park Seong-Ho, Comparison of degree of conversion for light-cured and additionally heat-cured composites, 10.1016/s0022-3913(96)90439-4