Determine the three-dimensional structure of molecules
When chemical or biological substances crystallize into single crystals, the technique of X-ray or electron diffraction can be used to determine their three dimensional structure. The technique provides accurate and precise measurements of molecular dimensions in a way that no other method can approach and is the only method for determining absolute structure unambiguously. A frequent use is the identification of natural products, or of the products of synthetic chemistry experiments; however, detailed molecular geometry, intermolecular interactions and absolute configuration can also be studied.
A new and fully integrated electron diffractometer for measuring submicron crystals, utilizing a seamless workflow from data collection to structure determination of crystal structures
Our most popular diffractometer for Chemical Crystallography and Mineralogy, configured with either single or dual microfocus sealed tube X-ray sources and an extremely low noise direct X-ray detection detector.
Our most popular diffractometer for Protein Crystallography, configured with a high-flux rotating anode X-ray source and an extremely low noise direct X-ray detection detector.
Spectacular performance combined with dual wavelength versatility, provides the perfect answer for high-capacity Chemical Crystallography labs or for X-ray facilities that support Chemical Crystallography and Protein Crystallography.
An entry-level single crystal X-ray diffractometer for Chemical Crystallography configured with microfocus sealed tube technology and a direct X-ray detection detector.
A bespoke, extremely high-flux diffractometer with custom enclosure and the flexibility to utilize both ports of the rotating anode X-ray source.
A benchtop single crystal X-ray diffractometer ideal for chemical crystallography and teaching.
A curved detector based on direct X-ray detection technology with the highest 2θ range at a single position available for the home lab.
A curved single crystal X-ray diffraction detector based on direct X-ray detection technology with a higher 2θ range compared to a flat detector.
Extremely low noise detector based on direct X-ray detection technology.
Extremely low noise, compact, detector based on direct X-ray detection technology.
High-resolution X-ray detectors for X-ray diffractometers from DECTRIS.
Robotic sample changer to provide unattended data acquisition, enhanced productivity and standardized workflow to your research environment.
Rigaku's new automated optic alignment solution makes X-ray optic alignment trivial, ensuring peak performance all the time.
The smallest detachable motorized goniometer head on the market.
Automated crystal transport, orientation and retrieval robot specifically designed for high-throughput structural biology.
User-inspired data collection and data processing software for small molecule and protein crystallography.