
Rigaku nano3DX is a true computed tomography (CT) X-ray microscope (XRM) with ultra-wide field of view, 25X larger volume than comparable systems, parallel beam geometry for rapid data collection.
>> See more
Sometimes referred to as small molecule crystallography, this technique employs single crystal X-ray diffraction (SXRD) to unambiguously determine the three dimensional structure of molecules. The technique involves the use of crystallography to study problems which are primarily of a chemical nature and provides accurate and precise measurements of molecular dimensions in a way that no other method can approach. Chemical crystallography may be applied to compounds of both chemical and biological interest, including: new synthetic chemicals, catalysts, pharmaceuticals, and natural products.
Single crystal X-ray diffraction instrumentation |
![]() |
XtaLAB mini II A compact, easy to use benchtop system with the latest technology HPC detector, ideal for self-service crystallography. |
![]() |
XtaLAB Synergy-i An upgradeable single crystal X-ray diffractometer for structural analysis of small molecule samples |
|
![]() |
XtaLAB Synergy-S Fast, flexible system with the latest generation sources and HPC detectors, perfect for any crystallography lab. |
|||||
![]() |
XtaLAB Synergy-R High-flux rotating anode system with a fast goniometer and sensitive HPC detectors for labs with challenging samples. |
![]() |
XtaLAB Synergy Custom Advanced system with latest HPC detector and a variety of X-ray sources to give ultimate flexibility for wide range of applications. |
||||||||
Three dimensional atomic structures of small molecules may be unambiguously determined by employing the technique of single crystal X-ray diffraction. This technique is applied across a wide range of areas, including new synthetic chemicals, catalysts, metal organic frameworks (MOFs), pharmaceuticals, and natural products.