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Crystallization Tools for the Research Chemist

23 Nov 2012

The need to study crystallization is extremely widespread in the chemical industry due to the importance of solids as the final form of many products. When the crystallization is to be scaled up into a process, you also need the so-called metastable zone width (MSZW). MSZW is important in crystallization processing as it represents the difference between the saturation temperature and the temperature during cooling at which crystallization actually commences. This application note demonstrates the use of CrystalEYES for high throughput crystallization studies.

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Crystal Eyes

The need to study crystallization is extremely widespread in the chemical industry due to the importance of solids as the final form of many products. HEL's Crystal Eyes makes it easy for chemists to determine the crystallization and dissolution points of their solutions. Crystal Eyes monitors and logs temperature, turbidity, and pH. The system includes choice of probe, signal conditioning electronics, and a compact PC with preloaded software ready to use. HEL offers a range of probes for any scale: from test tube (~2ml) to bench scale (5L). All probes available in PEEK, stainless steel, or Hastelloy. Want to work at different scales- Simply change the probe, no other changes needed to the electronics or software. The data is automatically recorded into .csv format, making it readily importable to Excel, or similar packages for analysis. Crystal Eyes includes: • Turbidity and temperature probes chosen specifically for your application • Electronics and PC with data handling software • pH monitoring is also available Ease of Use: • Insert the probes into your vessel • Heat and cool your solution • The data is automatically displayed and recorded Data Handling: • Real time data display and capture • Data is automatically saved to a data file • Data is readily exported to Excel for analysis

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X-ray CrystallographyX-ray crystallography is an analytical technique used to determine the arrangement of atoms in a crystal. Monochromatic x-rays are produced from a synchrotron or x-ray generator. An x-ray crystallography system uses a detector to measure the x-ray diffraction from the crystal. The information is used to generate a 3D image of the crystal.X-Ray Diffraction and SpectroscopyX-Ray diffraction & spectroscopy are used in material characterization to discern the structure and elemental composition of a sample. X-Ray diffractometers (XRD) are superior instruments in elucidating the dimensional atomic structure of crystalline materials, including powders, thin films and single crystals. For large unit cells or ordered macromolecules, consider small-angle X-ray scattering (SAXS). X-ray spectroscopic techniques include X-ray fluorescence (XRF) and X-ray photoelectron spectroscopy (XPS), both providing simple and accurate methods for determining the elemental composition of a material. Energy dispersive (EDXRF) and wavelength dispersive (WDXRF) XRF spectrometers are available, as well as handheld/portable devices. High-resolution, 3D microstructure characterization of materials can be achieved with X-ray microscopes combining sub-micron resolution imaging with 3D computed tomography. Find the best XRD and XRF spectrometers in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.Protein CrystallographyProtein crystallization is the process of crystallizing purified proteins for 3D structure analysis by x-ray crystallography. The main methods of protein crystallization include sitting drop, hanging drop and microbatch. It is important to control parameters such as pH, temperature and concentration. Following crystallization, detectors and software are used for data collection and analysis.Crystallization

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Crystallization Tools for the Research Chemist