Test
Pure carbon support films with no Formvar backing. This new product has an even thinner carbon film which is mounted on a Lacey carbon film. The carbon support layer lying over the holes is less than 3nm in thickness and is the thinnest support film available. It is particularly useful for high resolution microscopy of low contrast particles and is also ideal for use with the Energy Filtering TEM.
Made from 0.004" tantalum foil. Replaceable tantalum apertures for some microscopes (Amray and Philips). They improve the performance of the electron gun.
Tee, 360um, quick mount, 150um bore, for PEEK and FS Tubing (for < 10 kpsi)
A formvar coated grid, stabilized with evaporated carbon film. This type of coating is excellent for specimen support, especially for ultra thin sections. Coated grids are optically checked followed by batch testing in the electron microscope. Packed in grid storage box. NOTE: All film is laid on the shiny side of the grid. Formvar is 5 to 6 nm thick with a 3 to 4 nm carbon coating.
Grid: Gold
A formvar coated grid, stabilized with evaporated carbon film. This type of coating is excellent for specimen support, especially for ultra thin sections. Coated grids are optically checked followed by batch testing in the electron microscope. Packed in grid storage box. NOTE: All film is laid on the shiny side of the grid. Formvar is 5-6 nm thick with a 1 nm carbon coating.
Grid: Copper
A formvar coated grid, stabilized with evaporated carbon film. This type of coating is excellent for specimen support, especially for ultra thin sections. Coated grids are optically checked followed by batch testing in the electron microscope. Packed in grid storage box. NOTE: All film is laid on the shiny side of the grid. Formvar is 5-6 nm thick with a 1 nm carbon coating.
Grid: Nickel
A formvar coated grid, stabilized with evaporated carbon film. This type of coating is excellent for specimen support, especially for ultra thin sections. Coated grids are optically checked followed by batch testing in the electron microscope. Packed in grid storage box. NOTE: All film is laid on the shiny side of the grid. Formvar is approximately 10 nm thick with 20 to 30 nm of carbon.
Grid: Nickel
A formvar coated grid, stabilized with evaporated carbon film. This type of coating is excellent for specimen support, especially for ultra thin sections. Coated grids are optically checked followed by batch testing in the electron microscope. Packed in grid storage box. NOTE: All film is laid on the shiny side of the grid. Formvar is 25 to 50 nm thick with a 20 to 30 nm carbon coating.
Grid: Nickel
Goniometer Bases tightly capture the MicroRT tubing for seamless room and low-temperature data collection. For 19 mm MicroMount, without the ledge.
Platinum apertures are easily cleaned by either an aperture flamer or over a bunsen burner in the open air. We maintain a wide variety of Platinum Drilled Apertures in stock with different configurations suiting all of your needs. Nominal hole diameter: +/- 1 micron. Disc diameter: +/- 10 microns. Disc thickness: +/- 10 microns
Size: Spray 1000 µm
O.D.: 12.7 mm
Goniometer Bases tightly capture the MicroRT tubing for seamless room and low-temperature data collection. For 19 mm MicroMounts, with the flat ledge.
MicroMesh Mounts are the tool of choice for microcrystal crystallography and diffraction experiments, especially at micro-focus beam-lines. They have been use in de novo protein structure determination from crystals as small as 5um.
They are excellent for rods shaped crystals, and are superior to mount with elliptical apertures, because the mesh provides continuous, gentle support for rods of all sizes.
MicroMesh produce the smallest background scatter of any commercial mount. Their sieve-like action allows easy retrieval of sub 30um crystals.
Mesh: 80 µm
Type: 15 µm openings
Pin length: SPINE
Goniometer Bases tightly capture the MicroRT tubing for seamless room and low-temperature data collection. Without flat ledge. 416 magnetic stainless steel
MicroMesh Mounts are the tool of choice for microcrystal crystallography and diffraction experiments, especially at micro-focus beam-lines. They have been use in de novo protein structure determination from crystals as small as 5um.
They are excellent for rods shaped crystals, and are superior to mount with elliptical apertures, because the mesh provides continuous, gentle support for rods of all sizes.
MicroMesh produce the smallest background scatter of any commercial mount. Their sieve-like action allows easy retrieval of sub 30um crystals.
Mesh: 400 µm
Type: 10 µm openings
Pin length: SPINE
MicroMesh Mounts are the tool of choice for microcrystal crystallography and diffraction experiments, especially at micro-focus beam-lines. They have been use in de novo protein structure determination from crystals as small as 5um.
They are excellent for rods shaped crystals, and are superior to mount with elliptical apertures, because the mesh provides continuous, gentle support for rods of all sizes.
MicroMesh produce the smallest background scatter of any commercial mount. Their sieve-like action allows easy retrieval of sub 30um crystals.
Mesh: 700 µm
Type: 25 µm openings
Pin length: 25 mm