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XtaLAB Synergy-i
  • Improve your ability to investigate weakly diffracting samples because the solid-state pixel array technology of the HyPix X-ray detectors means that X-ray photons are counted instantaneously as they arrive at the detector. There is no conversion to visible light by a scintillator so the energy of the photon can be assessed at the moment of detection leading to essentially noise-free images. And noise-free images mean you can count longer for weakly diffracting crystals without a loss in data quality arising from detector noise.
  • Automatically solve structures and determine what your sample is in a few seconds before committing to a full dataset by using the “What is this?” feature.
  • Minimize your downtime by utilizing built-in online diagnostics and troubleshooting to diagnose and fix almost all problems without a site visit.
  • Highest level of user safety with multiply redundant electromechanical safety circuits built into the ergonomically designed radiation enclosure.
  • Enhanced experimental versatility when the dual source option is selected.

A Modern Full-Sized Diffractometer for Chemical Crystallography

A single crystal X-ray diffractometer built on the latest technologies for structural analysis of small molecule samples

XtaLAB Synergy-i

Today’s quintessential single crystal X-ray diffractometer includes a high-flux, low-maintenance microfocus sealed tube X-ray source, a high-precision 4-circle kappa goniometer and a modern X-ray detector. The XtaLAB Synergy-i is built on components that represent the latest technologies and can be upgraded from a single source to a dual source instrument in the future. The system can be equipped with Cu and/or Mo sources allowing for a broad range of sample types to be evaluated. The XtaLAB Synergy-i is controlled by the fully integrated, user-inspired CrysAlisPro software package that is capable of collecting and processing data efficiently and accurately, so you achieve the best data possible. The XtaLAB Synergy-i is a full-featured single crystal X-ray diffractometer that requires little servicing to maximize uptime and throughput. It is an ideal diffractometer for chemical crystallography research laboratories.

An extremely low-noise detector

The XtaLAB Synergy-i is configured with a HyPix-Bantam solid-state pixel array X-ray detector to enable direct X-ray photon detection and counting. Direct X-ray photon detection means that X-ray photons are counted instantaneously as they arrive at the detector. There is no conversion to visible light by a scintillator, so the energy of the photon can be assessed at the moment of detection. This leads to essentially noise-free images.

Microfocus sealed tube X-ray source with multilayer optics

The standard configuration of the XtaLAB Synergy-i includes a modern microfocus source, the PhotonJet-i. This source is available in dual- or single-source configurations (Cu/Mo), has low power consumption and yet provides high flux in order to study a variety of sample types. For the best data quality, it is important to ensure any source provides highly reproducible flux frame after frame. As tube temperature changes, so does the X-ray flux reaching your sample. Controlling the temperature of our sources using closed-circuit water cooling offers the best solution for consistent high performance.

CrysAlisPro v40

The XtaLAB Synergy-i comes complete with CrysAlisPro, our user-inspired data collection and data processing software for single crystal analysis. Designed around an easy-to-use graphical user interface, CrysAlisPro can be operated under fully automatic, semi-automatic or manual control. CrysAlisPro combines automated crystal screening, the fastest and most accurate strategy software available, concurrent data reduction and automatic small molecule structure solution. Visual feedback is provided for each step with clear, color-coded guidance so that both novices and experts can collect high-quality data in the shortest time possible.


AutoChem is the ultimate productivity tool for small molecule chemists, offering fast, fully automatic structure solution and refinement during data collection. Developed in collaboration with OlexSys Ltd (Durham University, UK), AutoChem works in conjunction with Olex² where more advanced structure solution and refinement functionality exists. AutoChem is seamlessly integrated within CrysAlisPro, and forms an integral part of our ‘What is this?’ feature. The ‘What is this?’ feature gives you structures quickly and ensures you are not wasting time collecting full datasets on known samples or starting materials. It is an alternative pre-experiment option, which is used to plan your full data collections.


Product name XtaLAB Synergy-i
Core attributes Single- or dual-microfocus sealed tube X-ray source diffractometer with hybrid pixel array detector and kappa goniometer
Detector HyPix-Bantam hybrid pixel array detector
X-ray Source PhotonJet-i X-ray source with microfocus sealed tube and graded multi-layer mirror.  Two target types are available (Mo or Cu).
Goniometer Kappa-geometry goniometer
Accessories Internal monitor in cabinet, Oxford Cryostream 800, Oxford Cobra, XtalCheck-S, High Pressure Kit, and Element Analyzer.
Computer External PC, MS Windows® OS, CrysAlisPro Software
Core dimensions 1300 (W) x 1875 (H) x 850 (D) (mm)
Mass 550 kg (core unit)
Power requirements 1Ø, 90-130 V, 10 A or 180-260 V, 4 A

Papers published using the XtaLAB Synergy-i

  1. Qi-Qi Zhou, Run-Qing Miao, Dan-Feng Wang, Rong-Bin Huang Syntheses, structures and properties of three novel Cu(Ⅱ) coordination compounds based on 4,4′-oxybisbenzoic acid Journal of Molecular Structure 2020 1206, 127688
  2. Ian E. Grey, W. Gus Mumme, Peter J. Downes, Benjamin A. Grguric, Robert W. Gable Segelerite from the Mount Deverell variscite deposit, Western Australia. Hydrogen bonding and relationship to jahnsite European Journal of Mineralogy 2019 31(3) , 465-471
  3. Angela Bell-Taylor, John D. Gorden, Emily E. Hardy, Christian R. Goldsmith A spin-crossover Co(II) complex catalyzes the activation of sp3 C–H bonds by two-electron oxidants Inorganica Chimica Acta 2018 482, 206-212
  4. Julie Urgiles, Sarah R. Nathan, Samantha N. MacMillan, Justin J. Wilson Dinuclear nitrido-bridged ruthenium complexes bearing diimine ligands Dalton Trans. 2017 46(41) , 14256-14263