Technotes
Minimizing Ice Accumulation
Mitegen's products are much easier to use and give less background scatter than glass fibers and other mounting tools common in small molecule crystallography.
How To Improve Crystal Diffraction with Optimized Cryocooling
Learn How To Improve Crystal Diffraction with Optimized Cryocooling Crystallography requires good crystals and that they stay good to the end of data collection. Hand cooling your crystals takes time...
Using MiTeGen’s B5-R Reusable Bases at NSLS-II
Mitegen's products are much easier to use and give less background scatter than glass fibers and other mounting tools common in small molecule crystallography.
Cleaning and Care for MiTeGen’s MicroMounts™, MicroLoops™, MicroMeshes™, MicroGrippers™ and MicroTools™
Cleaning: The best and easiest way to clean MiTeGen's tools is to soak them in a bath of a detergent-containing solution. When mounted in MiTeGen base holders, large quantities of...
Using MicroLoops LDTM
Mitegen's products are much easier to use and give less background scatter than glass fibers and other mounting tools common in small molecule crystallography.
Using MicromountsTM and MicroLoopsTM for Macromolecular Crystallography
Mitegen's products are much easier to use and give less background scatter than glass fibers and other mounting tools common in small molecule crystallography.
Using MicroMountsTM and MicroLoopsTM for Small Molecule and Inorganic Crystallography
Mitegen's products are much easier to use and give less background scatter than glass fibers and other mounting tools common in small molecule crystallography.
Reducing the Mosaicity of Flash Cooled Crystals
Mitegen's products are much easier to use and give less background scatter than glass fibers and other mounting tools common in small molecule crystallography.
Reducing Background Scatter and Maximizing Diffraction Signal to Noise
Mitegen's products are much easier to use and give less background scatter than glass fibers and other mounting tools common in small molecule crystallography.
Minimizing Sample Motion in Cold Gas Streams
Mitegen's products are much easier to use and give less background scatter than glass fibers and other mounting tools common in small molecule crystallography.
Minimizing Sample Motion in Cold Gas Streams
Sample motion in the cold gas stream can be problematic. Sample motion can broaden the apparent mosaicity and corrupt diffraction spot intensities so as to make indexing and refinement difficult.
Handling and Mounting Thin Plates
Mitegen's products are much easier to use and give less background scatter than glass fibers and other mounting tools common in small molecule crystallography.
Handling and Mounting Needle and Rod-Shaped Crystals
Mitegen's products are much easier to use and give less background scatter than glass fibers and other mounting tools common in small molecule crystallography.
Handling and Mounting Small Crystals
Mitegen's products are much easier to use and give less background scatter than glass fibers and other mounting tools common in small molecule crystallography.
Maximizing Productivity in Your Crystallography Lab
Mitegen's products are much easier to use and give less background scatter than glass fibers and other mounting tools common in small molecule crystallography.
Using our Pin Cutters
Mitegen's products are much easier to use and give less background scatter than glass fibers and other mounting tools common in small molecule crystallography.
Using the MicroRTTMSystem
Mitegen's products are much easier to use and give less background scatter than glass fibers and other mounting tools common in small molecule crystallography.
Using MiTeGen’s Reusable Bases
Mitegen's products are much easier to use and give less background scatter than glass fibers and other mounting tools common in small molecule crystallography.