| Detector(s) | High-energy resolution 2D hybrid pixel array detector (HyPix) | HyPix-6000 2D HPAD on motorized 2-axis stage | Inquire | D/teX, Ultra 1D High speed silicon strip detector | High-speed, high-sensitivity photon-counting detector, HyPix-ED |
| Description | Breakthrough speed and versatility for polymer structure analysis
- Next-generation WAXS system equipped with a high-brilliance X-ray source
- Structural information captured non-destructively in just a few seconds of exposure
- Time-resolved in-situ measurements for heating, stretching, and
Breakthrough speed and versatility for polymer structure analysis
- Next-generation WAXS system equipped with a high-brilliance X-ray source
- Structural information captured non-destructively in just a few seconds of exposure
- Time-resolved in-situ measurements for heating, stretching, and humidity conditions
DicifferX WAXS Edition redefines what’s possible for in-house WAXS measurements.
By delivering structural insights in seconds, it accelerates decision-making and drives rapid innovation.
Studies once requiring long measurement times or external facilities can now be performed directly in your
own laboratory, streamlining workflows and empowering faster materials development.... Read More | Inquire | LabLinc Studio is Rigaku’s modular integration offering for autonomous labs, combining RAI (Rigaku Automation Interface), SmartLab software workflow packaging, and optional automation hardware (sample handling, robots, robot-compatible doors/enclosures) plus technical support. Critical instrument LabLinc Studio is Rigaku’s modular integration offering for autonomous labs, combining RAI (Rigaku Automation Interface), SmartLab software workflow packaging, and optional automation hardware (sample handling, robots, robot-compatible doors/enclosures) plus technical support. Critical instrument settings are exposed through Python API for easy integration of analytical instruments into autonomous labs and AI-driven materials discovery loop.... Read More | New sixth generation MiniFlex X-ray diffractometer (XRD) is a multipurpose analytical instrument that can determine: phase identification and quantification, percent (%) crystallinity, crystallite size and strain, lattice parameter refinement, Rietveld refinement, and molecular structure. It is New sixth generation MiniFlex X-ray diffractometer (XRD) is a multipurpose analytical instrument that can determine: phase identification and quantification, percent (%) crystallinity, crystallite size and strain, lattice parameter refinement, Rietveld refinement, and molecular structure. It is widely used in research, especially in material science and chemistry, as well as in industry for research and quality control. It is the newest addition to MiniFlex series of benchtop X-ray diffraction analyzers from Rigaku, which began with the introduction of the original MiniFlex system decades ago.
Overview: - New 6th generation design
- Compact, fail-safe radiation enclosure
- Incident beam variable slit
- Simple installation and user training
- Factory aligned goniometer system
- Laptop computer operation
Measurements: - Phase identification
- Phase quantification
- Percent (%) crystallinity
- Crystallite size and strain
- Lattice parameter refinement
- Rietveld refinement
- Molecular structure
Options: - 8-position autosampler
- Graphite monochromator
- D/teX Ultra: silicon strip detector
- HyPix-400 MF: 2D HPAD detector
- Air sensitive sample holder
- Travel case
... Read More | The XtaLAB Synergy-ED is the world’s first 3DED/microED (3D Electron Diffraction/micro Electron Diffraction) system and the successful culmination of a joint development project between Rigaku and JEOL. 3DED/microED allows crystallographers to probe the structure of crystals and The XtaLAB Synergy-ED is the world’s first 3DED/microED (3D Electron Diffraction/micro Electron Diffraction) system and the successful culmination of a joint development project between Rigaku and JEOL. 3DED/microED allows crystallographers to probe the structure of crystals and nanocrcrystals as small as tens of nanometers, opening up many new possibilities. This new capability allows you to go beyond the limitations of X-ray diffraction (XRD), which requires samples greater them 1 µm.
- Directly determine 3D molecular structures of submicron crystals for the first time
- Rigaku’s high-speed, high-sensitivity photon counting detector - HyPix-ED
- JEOL’s expertise in generation and control of stable electron beams – 200 kV electron source and optics
- Rigaku’s powerful single crystal analysis software – CrysAlisPro-ED
3DED/microED is an excellent complementary technique to XRD, and the compact design of the XtaLAB Synergy-ED allows it to be easily located in laboratories alongside these instruments. Crystallographers familiar with Rigaku diffractometers running CrysAlisPRO will be able to adapt to the CrysAlisPRO-ED interface very quickly, as it is based on the same intuitive platform.
The fully integrated system incorporates a seamless workflow from data collection to structure determination of three-dimensional molecular structures. AutoChem, which is fully integrated into CrysAlisPRO, performs fast, fully automated structure solution and refinement during data collection, optimizing your productivity.
3DED/microED allows direct structural determination of sub-micron sized crystals that could only previously be postulated by techniques such as NMR. As an emerging technique, there is scope for the generation of many publications using the XtaLAB Synergy-ED.
... Read More |