A Consumers Report on Detection of 10 Nm Gold on Cell Surfaces: Selection of Fesem Type and Choice of Conductive Metal Coating

Abstract: Important parameters for the detection of small colloidal immunogold particles (10 nm) on cell surfaces include the use of field emission SEM (FESEM) and a need for a conductive metal coating to reduce charging, so as to facilitate backscatter electron (BSE) imaging for unambiguous identification by atomic number contrast. Recently Heinzmann et al (1) have reported the use of below-lens FESEM for detection of 10 nm colloidal gold at working distances of 6-13 mm, but achieved success only on uncoated ce… Show more

“…8 We will also discuss FESEM of [typical TEM preparation] stained polymer specimens using backscattered electron imaging techniques shown to give high resolution on biological specimens. 9 Figures 1 and 2. Surface of polyethylene imaged using FESEM at an accelerating voltage of 2 kV.…”

Field Emission Scanning Electron Microscopy Studies of Industrial Polymers - A Survey

“…8 We will also discuss FESEM of [typical TEM preparation] stained polymer specimens using backscattered electron imaging techniques shown to give high resolution on biological specimens. 9 Figures 1 and 2. Surface of polyethylene imaged using FESEM at an accelerating voltage of 2 kV.…”

Field Emission Scanning Electron Microscopy Studies of Industrial Polymers - A Survey