Adding to what Jeff Zahn wrote, it's better to stay away from the blue and UV when doing any fluorescence microscopy on SU-8. Cross-linked SU-8 has an absorption coefficient of 1000/m at about 600nm and goes up to almost ten times that at 400nm. If you have access to a source for two-photon excitation of your fluorophore (like a Ti:sapphire laser) and are examining the proteins by confocal microscopy, the rhodamine dyes work really well. I have good success with imaging Rhodamine B by 1- and 2-photon excitation in SU-8. I haven't had a problem with autofluorescence of the material either. Good luck, Chris On Tuesday, August 13, 2002, at 05:20 am, Cyrus Wilson wrote: > I'm most worried about fluorescence behavior of SU-8. I'd like to be > able to use fluorescence microscopy to visualize fluorescently-labeled > protein bundles suspended on SU-8 pillars (fabricated on a glass cover > slip). I have flexibility in my choice of fluorophores, so it would > seem wise to avoid those with excitation frequencies in the UV range > that SU-8 absorbs. But I'm concerned about slight absorption and > emission of wavelengths above 400nm that aren't a problem for most uses > but could get in my way. Is anyone aware of info on absorption and > emission spectra of SU-8 after it is baked & developed? -- Christopher F. Blanford Inorganic Chemistry Laboratory, South Parks Road, Oxford, OX1 3QR, UK Phone: (44)/(0)-1865-282603; Fax: (44)/(0)-1865-272690 PGP keyID: 8D830BC9 http://pgp.mit.edu/