PRODUCTS
MiniFlex Benchtop Powder X-ray Diffraction (XRD)
Qualitative and quantitative phase analysis of poly-crystalline materials
The MiniFlex benchtop X-ray diffractometer is a multipurpose powder diffraction analytical instrument that can determine: crystalline phase identification (phase ID) 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 the MiniFlex series of benchtop X-ray diffraction analyzers from Rigaku, which began with the introduction of the original MiniFlex XRD system decades ago.
SmartLab Automated Multipurpose X‑ray Diffractometer (XRD) With Guidance Software
Powder diffraction, thin film metrology, SAXS, in-plane scattering, operando measurements
Rigaku SmartLab is the newest and most novel high-resolution X-ray diffractometer (XRD) available today. Perhaps its most novel feature is the new SmartLab Studio II software, which provides the user with an intelligent User Guidance expert system functionality that guides the operator through the intricacies of each experiment. It is like having an expert standing by your side.
This new X-ray diffraction system features the PhotonMax high-flux 9 kW rotating anode X-ray source coupled with a HyPix-3000 high-energy-resolution 2D multidimensional semiconductor detector that supports 0D, 1D and 2D measurement modes, allowing all applications to be handled with a single detector, eliminating the inconvenience of preparing and switching individual detectors for different applications. The HyPix-3000 detector can be used to obtain 2D powder diffraction patterns, which can be processed to deliver superior qualitative analysis by using all the 2D pattern information. The system incorporates a high-resolution θ/θ closed loop goniometer drive system with an available in-plane diffraction arm. The system’s new Cross-Beam-Optics (CBO) family feature fully automated switchable reflection and transmission optics (CBO-Auto).
SmartLab SE Multipurpose X-ray Diffraction System with Built-In Intelligent Guidance
Powder diffraction, thin film diffraction, SAXS, pole figure, residual stress and non-ambient experiments
The SmartLab SE is a highly versatile multipurpose X-ray diffractometer with built-in intelligent guidance. It offers continued refinement of the original ease of use features that enabled the original SmartLab to receive the R&D 100 Award in 2006: automatic alignment, component recognition, cross beam optics and advanced photon counting hybrid pixel array detectors (HPAD).
SmartLab Studio II incorporates a built-in Guidance expert system that suggests the optimal hardware configuration and settings for specific application measurements. The software will determine which optics are most appropriate for a given application, determine the instrument settings and execute the measurement, delivering a completely automated measurement sequence. Since the SmartLab SE has built-in component recognition, Guidance will not only tell you how you should configure the SmartLab SE for a given measurement, it will also warn you if you have not configured it properly. Expert advice coupled with hardware that will confirm the correct configuration is the foundation of the SmartLab SE platform.
XtaLAB Synergy-ED Fully Integrated Electron Diffractometer
A system any X-ray crystallographer will find intuitive to operate
XtaLAB Synergy-ED is a new and fully integrated electron diffractometer, creating a seamless workflow from data collection to structure determination of three-dimensional molecular structures. The key feature of this product is that it provides researchers an integrated platform enabling easy access to electron crystallography. The XtaLAB Synergy-ED is a system any X-ray crystallographer will find intuitive to operate without having to become an expert in electron microscopy.
The XtaLAB Synergy-ED is the result of an innovative collaboration between Rigaku and JEOL, to synergistically combine Rigaku’s core technologies: Rigaku’s high-speed, high-sensitivity photon-counting detector (HyPix-ED) and state-of-the-art instrument control and single crystal analysis software platform (CrysAlisPro for ED), and JEOL’s long-term expertise and market leadership in designing and producing transmission electron microscopes.
XtaLAB Synergy-R High-Flux Rotating Anode X-ray Diffractometer
A powerful and fast system for single crystal X-ray diffraction analysis
The XtaLAB Synergy-R was designed to address the increasing need to investigate smaller and smaller samples in crystallographic research. Tightly integrating a PhotonJet-R microfocus rotating anode X-ray source with a high-speed kappa goniometer and a solid-state pixel array HPC detector creates a single crystal diffractometer that produces up to 10 times the flux as compared to a PhotonJet-S microfocus sealed tube source. The increase in flux allows you to look at much smaller crystals than before and as a side benefit it provides increased data collection speed for normal sized crystals.
The system can be equipped with your choice of HPC hybrid photon counting detectors, the HyPix-6000HE or the curved, large theta coverage detectors, HyPix-Arc 100° or HyPix-Arc 150°. For crystallographers who wish to have a powerful, well-integrated diffractometer and only need to use one port of the rotating anode, the XtaLAB Synergy-R provides the perfect combination of high-flux performance with a low-noise HPC X-ray detector.
XtaLAB Synergy-S Single Or Dual Microfocus X‑ray Diffractometer
A fast and agile single crystal X‑ray diffractometer for small molecule 3D structure analysis
With your success utmost in our minds, we have developed the XtaLAB Synergy-S X-ray 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-S produces fast, accurate data in an intelligent fashion.
The system is based around the PhotonJet-S series of microfocus X-ray sources that optionally incorporate continuously variable divergence slits. 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. PhotonJet-S sources are available in Cu, Mo or Ag wavelengths in either a single or dual source configuration. The XtaLAB Synergy-S single crystal X-ray diffractometer comes with a kappa goniometer that incorporates fast motor speeds and a unique telescopic two-theta arm to provide total flexibility for your diffraction experiment. The system is also equipped with your choice of HPC hybrid photon counting detectors, the HyPix-6000HE or the large theta coverage detectors: HyPix-Arc 100° or HyPix-Arc 150°.
CT Lab HX Versatile X-ray Micro CT Scanner
High-performance benchtop
Rigaku CT Lab HX is a benchtop micro CT (computed tomography) scanner. The adjustable SOD (source-to-object distance) and SDD (source-to-detector distance) make this benchtop micro CT scanner flexible. It covers from 2.1-micron voxel resolution in the high-resolution mode and 200 mm FOV (field of view) in the large FOV mode. The CT Lab HX is equipped with a 130 kV – 39 W high-power X-ray source. The X-ray source settings and X-ray filters are adjustable to optimize the X-ray energy to various sample materials and sizes.
Rigaku CT Lab HX uses the cone-beam geometry. This geometry uses the X-ray beam divergence to magnify the sample image. The magnification factor is determined by the ratio of SOD (source-to-object distance) and SDD (source-to-detector distance). So to achieve high resolution, you can increase the SDD and/or decrease SOD. CT Lab HX has the flexibility to do them both in its compact design.
With the long SDD and short SOD settings, you can achieve 2.1-micron voxel resolution (~ 5-micron spatial resolution) on the CT Lab HX. This resolution can reveal micro cracks, voids, fibers in composites, etc.
WDXRF Spectrometers ZSX Primus IV
Elemental analysis of solids, liquids, powders, alloys and thin films
As a tube-above sequential wavelength dispersive X-ray fluorescence (WDXRF) spectrometer, the Rigaku ZSX Primus IV delivers rapid quantitative determination of major and minor atomic elements, from beryllium (Be) through uranium (U), in a wide variety of sample types — with minimal standards.
New ZSX Guidance expert system XRF software
ZSX Guidance supports you in all aspects of XRF measurement and data analysis. Can accurate analysis only be performed by experts ? No—that is in the past. ZSX Guidance software, with the built-in XRF expertise and know-how of skilled experts, takes care of sophisticated settings. Operators simply input basic information about samples, analysis components and standard composition. Measured lines with the least overlap, optimum backgrounds and correction parameters (including line overlaps) are automatically set with aid of qualitative spectra.
Exceptional light element XRF performance with inverted optics for superior reliability
ZSX Primus IV features an innovative optics-above configuration. Never again worry about a contaminated beam path or down time due to sample chamber maintenance. The optics-above geometry eliminates cleaning worries and increases up time. Providing superior performance with the flexibility for analyzing the most complex samples, the ZSX Primus IV WDXRF spectrometer features a 30 micron tube, the thinnest end-window tube available in the industry, for exceptional light element (low-Z) detection limits.
Accuva Cellect
Laser Capture Microdissection (LCM) System – Power and Precision in One System
For oncology, neuroscience, and other research areas that required cell enrichment, the Accuva Cellect sets you up for success in your downstream analysis. Isolating just the cells you want and capturing only the cells you want and enriching for specific cell types provides a more accurate genetic profile for earlier stage analysis.
Dual laser system
Enables a wide range of applications ranging from single-cell isolation to large biopsy extractions, expanding utility and helping to ensure reliability of cell capture across sample types without contamination or damage to morphology.
Allows rapid isolation of specific cells in five simple steps and quality control with visual inspection, making documentation and sample custody easy.
Flexible sample prep
Support for a wide range of slide types and sample preparation formats. If you have an existing workflow, we can work with that or we have validated workflow for you.
Compact design
The footprint is ~32% smaller microscope and laser systems, saving bench space.
PeproGMP Recombinant Proteins
Recombinant proteins are often among the key raw materials used in clinical manufacturing of biotherapeutics, so strong supply chain continuity and scaling capabilities are important considerations when choosing a GMP cytokine or other GMP protein supplier.
Thermo Fisher Scientific offers GMP proteins that can help you seamlessly scale your cell production process while meeting all clinical requirements. Gibco PeproGMP cytokines are designed and manufactured to support end-to-end manufacturing of cell therapies and other biotherapeutics.
All PeproTech GMP proteins are manufactured in E. coli using defined media, enzymes, and chemicals that are animal- and human-origin free. GMP recombinant proteins are available for a wide range of applications, including culture and modification of stem cells, immune cells, and organoids.
PeproTech GMP recombinant proteins are manufactured for use as ancillary materials by applying applicable principles of GMP and quality control requirements from USP (United States Pharmacopeia) Chapter <1043> Ancillary Materials for Cell, Gene, and Tissue-Engineered Products.
PeproGMP cytokines are developed and manufactured with quality, scale, and regulatory compliance in mind. Thermo Fisher Scientific has a dedicated 65,000 square foot facility for recombinant protein development and manufacture. All PeproTech recombinant proteins are now manufactured at this facility for high quality and consistency.
PeproTech proteins manufacturing facility features:
- Controlled and certified ISO Class 7 and Class 8 cleanrooms for GMP manufacturing
- Dedicated animal-free labs
- Centralized manufacturing to ensure lot-to-lot consistency
Download the PeproGMP brochure to view the full list of products.
PeproTech recombinant proteins
Recombinant cytokines, chemokines, and other RUO proteins
Most PeproTech recombinant proteins are based on native sequences from human, mouse, and rat, and are produced in bacterial, mammalian, or insect cells. Many PeproTech E. coli–produced proteins are animal origin–free as they are made without using animal-derived cell culture components or purification resins.
The PeproTech product line includes RUO recombinant cytokines important for research in:
- Stem cells
- 3D cell culture models
- Cancer cell biology
- Neurobiology
- Immunology
- Cardiovascular
PeproTech recombinant cytokines and proteins help life science, biotech, and pharma companies achieve success in their endeavors to discover new biological insights and develop cutting-edge cell and gene therapies.
Because every step of the production process is expertly managed within, PeproTech recombinant cytokines and growth factors are trusted for quality, consistency, and reliability as well as their ability to support the RUO-to-GMP transition.
Cell Lines & Primary Cells
We offer a variety of primary cultures and established cell lines, reagents, media, sera, and growth factors for your cell culture experiments.
