XtaLAB Synergy X-Ray Tube Diffractometer
A fast and agile system for small molecule 3D structure analysis.
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Cement quality lab and chemical analysis at cement plant
This instrument retains the characteristics that have made it popular. Compact size allows it to be installed on a lab bench. 1⁄2 the cost of a traditional floor standing diffractometer. Distinguished scientific literature record. Easy to use, operate, and maintain. Able to use pre-existing utilities. Good features and easy to use.
Review Date: 14 May 2021 | Rigaku Corporation
With your success utmost in our minds, we have developed the XtaLAB Synergy diffractometer for single crystal X-ray diffraction. Using a combination of leading edge components and user-inspired software tied together through a highly parallelized architecture, the XtaLAB Synergy produces fast, precise data in an intelligent fashion.
The system is based around our NEW PhotonJet series of microfocus sources. These third generation sources have been designed to maximize X-ray photons at the sample by using a combination of new optics, new, longer life, tubes and an improved alignment system. PhotonJets are available in Cu, Mo or Ag wavelengths in either a single or dual source configuration.
The new kappa goniometer has been completely redesigned to incorporate faster motor speeds and a unique telescopic two-theta arm to provide total flexibility for your diffraction experiment. The goniometer is compatible with the widest range of detectors to suit your needs. CCD or HPC? Your choice.
Benefits:
- Significant improvement in data quality and data collection speed over previous microfocus sealed tube systems
- Closer or longer detector distance means a wider range of samples can be analyzed with exceptional accuracy
- Minimal downtime with longer X-ray tube lifetime - supported by online diagnostics and troubleshooting
Features:
- Higher source flux and increased goniometer speed to allow quicker, more agile experiments
- Unique telescopic two-theta arm to reach both longer and shorter crystal-to-detector distances
- Enhanced kappa goniometer design with symmetrical 2θ positioning
- New high-flux source with longer life X-ray tubes
- Improved X-ray optic alignment mechanism for easy maintenance
- Widest range of detectors available - HPC or CCD
- User-inspired cabinet design for improved workflow
- New electronically controlled brightness of cabinet and crystal lighting