JAIC 1994, Volume 33, Number 2, Article 8 (pp. 171 to 184)
JAIC online
Journal of the American Institute for Conservation
JAIC 1994, Volume 33, Number 2, Article 8 (pp. 171 to 184)




Baker, M., D.vonEndt, W.Hopwood, and D.Erhardt. 1988. FTIR microspectrometry: A powerful conservation analysis tool. AIC preprints, 16th Annual Meeting, New Orleans. Washington, D.C.: AIC.1–13.

Derrick, M. R., D. C.Stulik, J. M.Landry, and S. P.Bouffard. 1992. Furniture finish layer identification by infrared linear mapping microspectroscopy. Journal of the American Institute for Conservation31:225–36.

Doehne, E., and D.Stulik. 1990. Applications of the environmental scanning electron microscope to conservation science. Scanning Microscopy4(2):275–86.

Doehne, E., and D.Stulik. 1991. Dynamic studies of materials using the environmental scanning electron microscope. In Materials issues in art and archaeologyII, Materials Research Society Symposium Proceedings 185, ed.P.Vandiver, J.Druzik, and G. S.Wheeler. 31–37.

Feller, R.1964. The deteriorating effect of light on museum objects. Museum News42(10):25.

George, G. A., G. T.Egglestone, and S. ZRiddell. 1983. Chemiluminescence studies of the degradation and stabilization of polymers. Polymer Engineering and Science23(7):412.

Gromek, J. M., and M. R.Derrick. 1993. Photo-induced chemiluminescence: A sensitive probe of oxidative changes in organic materials. Polymer Degradation and Stability39:261–68.

Hanlan, J. F.1970. The effect of electronic photographic lamps on the materials of works of art. Museum News48(10):33.

Harthcock, M. A., and S. C.Atkin. 1988. Infrared microspectroscopy: Development and applications of imaging capabilities. In Infrared Microspectroscopy, ed.R. G.Messerschmidt and M. A.Harthcock. New York: Marcel Dekker. 21–39.

Katon, J. E., A. J.Sommer, and P. L.Lang. 1989. Infrared microspectroscopy. Applied Spectroscopy Reviews25(3):173.

Mendenhall, G. D.1990. Chemiluminescence techniques for the characterization of materials. Angewandte Chemie: International Edition, English29(4):362.

Pella, E.1990. Elemental organic analysis. Part 1, Historical developments. American Laboratory22(2):116–25.

Stulik, D., and E.Doehne. 1991. Applications of environmental scanning electron microscopy in art conservation and archaeology. In Materials issues in art and archaeology, II, Materials Research Society Symposium Proceedings 185, ed.P.Vandiver, J.Druzik, and G. S.Wheeler. 23–29.

Tsang, J., and R.Cunningham. 1991. Some improvements in the study of cross sections. Journal of the American Institute for Conservation30:163–177.


MICHELE R. DERRICK graduated from Oklahoma State University in 1979 with an M.S. in analytical chemistry. She joined the Scientific Program of the Getty Conservation Institute in 1983, where she is currently the acting head of the analytical section. Her research involves the development of new methods for the characterization and identification of organic materials in cultural objects, primarily using infrared spectroscopy and pyrolysis gas chromatography. Address: Getty Conservation Institute, 4503 Glencoe Ave., Marina del Rey, Calif. 90292.

ERIC F. DOEHNE graduated from Haverford College with a B.S. degree in geology in 1984. He then completed his M.S. degree in geology at the University of California at Davis in 1987. He joined the Getty Conservation Institute in 1988, where he is currently an associate scientist in the architecture and monuments section. He obtained his Ph.D. in geology from the University of California at Davis in 1994, under the late Stanley V. Margolis. His current research is in the fields of stone conservation and archaeometry. Address: as for Derrick.

ANDREW E. PARKER received a B.S. in biochemistry from California State University, Northridge, in 1990 and has been an intern at the Getty Conservation Institute since 1990. His research focuses on the identification of artists' materials using different analytical techniques and the development of novel sample preparation methods for the radiocarbon dating of cultural objects. Address: as for Derrick.

DUSAN C. STULIK graduated from Charles University, Prague, Czechoslovakia, with B.S. and M.S. degrees in chemistry. He subsequently obtained a Ph.D. in physics from the Czechoslovakia Academy of Sciences. He is currently acting head of the scientific program at the Getty Conservation Institute. His current research is in the application of modern scientific methods in conservation science. Address: as for Derrick.

Copyright � 1994 American Institute for Conservation of Historic and Artistic Works