Uncoated TEM Grids

Aperture grids consist of one central circular hole. The larger the aperture dimension, the thicker the grid, for maximum rigidity. Overall thickness variation : GA75: 25 microns, +/- 3 microns, GA2000: 50 microns, +/- 5 microns

Aperture grids consist of one central circular hole. The larger the aperture dimension, the thicker the grid, for maximum rigidity. Overall thickness variation : GA75: 25 microns, +/- 3 microns, GA2000: 50 microns, +/- 5 microns

Aperture grids consist of one central circular hole. The larger the aperture dimension, the thicker the grid, for maximum rigidity. Overall thickness variation : GA75: 25 microns, +/- 3 microns, GA2000: 50 microns, +/- 5 microns

Aperture grids consist of one central circular hole. The larger the aperture dimension, the thicker the grid, for maximum rigidity. Overall thickness variation : GA75: 25 microns, +/- 3 microns, GA2000: 50 microns, +/- 5 microns

Aperture grids consist of one central circular hole. The larger the aperture dimension, the thicker the grid, for maximum rigidity. Overall thickness variation : GA75: 25 microns, +/- 3 microns, GA2000: 50 microns, +/- 5 microns

Aperture grids consist of one central circular hole. The larger the aperture dimension, the thicker the grid, for maximum rigidity. Overall thickness variation : GA75: 25 microns, +/- 3 microns, GA2000: 50 microns, +/- 5 microns

Aperture grids consist of one central circular hole. The larger the aperture dimension, the thicker the grid, for maximum rigidity. Overall thickness variation : GA75: 25 microns, +/- 3 microns, GA2000: 50 microns, +/- 5 microns

Aperture grids consist of one central circular hole. The larger the aperture dimension, the thicker the grid, for maximum rigidity. Overall thickness variation : GA75: 25 microns, +/- 3 microns, GA2000: 50 microns, +/- 5 microns

Aperture grids consist of one central circular hole. The larger the aperture dimension, the thicker the grid, for maximum rigidity. Overall thickness variation : GA75: 25 microns, +/- 3 microns, GA2000: 50 microns, +/- 5 microns

Aperture grids consist of one central circular hole. The larger the aperture dimension, the thicker the grid, for maximum rigidity. Overall thickness variation : GA75: 25 microns, +/- 3 microns, GA2000: 50 microns, +/- 5 microns

Aperture grids consist of one central circular hole. The larger the aperture dimension, the thicker the grid, for maximum rigidity. Overall thickness variation : GA75: 25 microns, +/- 3 microns, GA2000: 50 microns, +/- 5 microns

Aperture grids consist of one central circular hole. The larger the aperture dimension, the thicker the grid, for maximum rigidity. Overall thickness variation : GA75: 25 microns, +/- 3 microns, GA2000: 50 microns, +/- 5 microns

Aperture grids consist of one central circular hole. The larger the aperture dimension, the thicker the grid, for maximum rigidity. Overall thickness variation : GA75: 25 microns, +/- 3 microns, GA2000: 50 microns, +/- 5 microns

Aperture grids consist of one central circular hole. The larger the aperture dimension, the thicker the grid, for maximum rigidity. Overall thickness variation : GA75: 25 microns, +/- 3 microns, GA2000: 50 microns, +/- 5 microns

Aperture grids consist of one central circular hole. The larger the aperture dimension, the thicker the grid, for maximum rigidity. Overall thickness variation : GA75: 25 microns, +/- 3 microns, GA2000: 50 microns, +/- 5 microns

Aperture grids consist of one central circular hole. The larger the aperture dimension, the thicker the grid, for maximum rigidity. Overall thickness variation : GA75: 25 microns, +/- 3 microns, GA2000: 50 microns, +/- 5 microns

Aperture grids consist of one central circular hole. The larger the aperture dimension, the thicker the grid, for maximum rigidity. Overall thickness variation : GA75: 25 microns, +/- 3 microns, GA2000: 50 microns, +/- 5 microns

Aperture grids consist of one central circular hole. The larger the aperture dimension, the thicker the grid, for maximum rigidity. Overall thickness variation : GA75: 25 microns, +/- 3 microns, GA2000: 50 microns, +/- 5 microns

Aperture grids consist of one central circular hole. The larger the aperture dimension, the thicker the grid, for maximum rigidity. Overall thickness variation : GA75: 25 microns, +/- 3 microns, GA2000: 50 microns, +/- 5 microns

Aperture grids consist of one central circular hole. The larger the aperture dimension, the thicker the grid, for maximum rigidity. Overall thickness variation : GA75: 25 microns, +/- 3 microns, GA2000: 50 microns, +/- 5 microns

Aperture grids consist of one central circular hole. The larger the aperture dimension, the thicker the grid, for maximum rigidity. Overall thickness variation : GA75: 25 microns, +/- 3 microns, GA2000: 50 microns, +/- 5 microns

Aperture grids consist of one central circular hole. The larger the aperture dimension, the thicker the grid, for maximum rigidity. Overall thickness variation : GA75: 25 microns, +/- 3 microns, GA2000: 50 microns, +/- 5 microns

Gilder grids are high quality grids with well defined mesh patterns. The overall thickness of the grid depends on the mesh repeat, and as a general guide the lower the mesh repeat, the thicker the grid.

Gilder grids are high quality grids with well defined mesh patterns. The overall thickness of the grid depends on the mesh repeat, and as a general guide the lower the mesh repeat, the thicker the grid.

Gilder grids are high quality grids with well defined mesh patterns. The overall thickness of the grid depends on the mesh repeat, and as a general guide the lower the mesh repeat, the thicker the grid.

Gilder grids are high quality grids with well defined mesh patterns. The overall thickness of the grid depends on the mesh repeat, and as a general guide the lower the mesh repeat, the thicker the grid.

Gilder grids are high quality grids with well defined mesh patterns. The overall thickness of the grid depends on the mesh repeat, and as a general guide the lower the mesh repeat, the thicker the grid.

Gilder grids are high quality grids with well defined mesh patterns. The overall thickness of the grid depends on the mesh repeat, and as a general guide the lower the mesh repeat, the thicker the grid.

Gilder grids are high quality grids with well defined mesh patterns. The overall thickness of the grid depends on the mesh repeat, and as a general guide the lower the mesh repeat, the thicker the grid.

Gilder grids are high quality grids with well defined mesh patterns. The overall thickness of the grid depends on the mesh repeat, and as a general guide the lower the mesh repeat, the thicker the grid.