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Rigaku Launches New X-ray Microscope at ACMM23/ICONN2014

Rigaku Corporation
20 Feb 2014
Sarah Thomas
Associate Editor

Product news

Rigaku is pleased to announce the release of the nano3DX X-ray microscope, which debuted at ACMM23 & ICONN2014 (the 23rd Australian Conference on Microscopy and Microanalysis and the International Conference on Nanoscience and Nanotechnology).

The nano3DX is a new product for Rigaku, which has a long history and significant expertise in analytical X-ray related technologies such as X-ray diffraction (XRD), X-ray fluorescence (XRF) and non-destructive testing (NDT). It is a true X-ray microscope (XRM) with the ability to measure relatively large samples at high resolution.


Entire sample imaging from multiple angles

As an X-ray microscope, the nano3DX images the entire sample from multiple angles. In doing so, it can reconstruct a 3D image at 0.27 µm resolution. The computer model allows the user to view sections at any point on any plane, providing valuable insights into the structure of the sample.
Designed for fast data collection

The secret behind the Rigaku nano3DX is the high-power rotating anode and high-resolution optics coupled with sub-micron CCD technology. This combination is capable of fast data collection and has the ability to switch anode materials rapidly to optimize data acquisition. Furthermore, the magnification occurs in the detector using true microscope elements.


The geometry of the system allows the sample to be located very close to the high-resolution detector, which provides near-parallel beam optics. This design results in improved instrument stability, which prevents smearing, allows for faster data collection times and ultimately yields the highest resolution X-ray microscope in its class.

Ultra-wide field of view


One of the other advantages of the nano3DX over other instruments is its ultra-wide field of view. The nano3DX is able to measure volumes up to 25 times larger in a single scan compared to other systems at similar resolutions in comparable time frames.

Primary anode materials used in the nano3DX are copper, chromium and molybdenum. The choice of these anode materials gives the system the flexibility to optimize the X-rays for penetration and contrast based on the atomic weights of materials present in the sample.

Suitable for multiple materials

X-ray microscopy is suited to all kinds of materials, from low density materials such as biological samples to high density materials such as ceramics and steels. XRM is even suitable for materials with low absorption contrast, like CFRPs and pharmaceuticals.

Applications for the nano3DX are many and varied, from materials science to electronics and semiconductors to mining and minerals exploration to life sciences and pharmaceuticals.

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Process ChemistryProcess chemistry is an important stage of drug development for scaling-up drug production or chemical synthesis reactions. It is useful for optimizing economical and efficient drug production. Process chemistry uses reactors and pump systems as well as reagents, standards and buffers.X-Ray Diffraction and SpectroscopyX-Ray diffraction & spectroscopy are used in material characterization to discern the structure and elemental composition of a sample. X-Ray diffractometers (XRD) are superior instruments in elucidating the dimensional atomic structure of crystalline materials, including powders, thin films and single crystals. For large unit cells or ordered macromolecules, consider small-angle X-ray scattering (SAXS). X-ray spectroscopic techniques include X-ray fluorescence (XRF) and X-ray photoelectron spectroscopy (XPS), both providing simple and accurate methods for determining the elemental composition of a material. Energy dispersive (EDXRF) and wavelength dispersive (WDXRF) XRF spectrometers are available, as well as handheld/portable devices. High-resolution, 3D microstructure characterization of materials can be achieved with X-ray microscopes combining sub-micron resolution imaging with 3D computed tomography. Find the best XRD and XRF spectrometers in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.In Vivo Imaging Systems<i>In vivo</i> imaging systems, including pre-clinical imaging systems and medical imaging systems are used to non-invasively visualize and capture images of live animals and plants. Monitor the natural processes or diseases of your subjects using small-animal pre-clinical imaging systems, including single photon positron emission tomography (SPECT), positron emission tomography (PET), computed tomography (micro-CT), magnetic resonance imaging (MRI), X-ray radiography, ultrasound, fluorescence and bioluminescence imagers. Multimodal systems and software solutions are also available for correlative analysis of organ, tissue, cell, or molecular-level processes. Find the best in vivo imaging products in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.Light MicroscopyLight microscopes or optical microscopes are used to visualize microscale objects under magnification, including cells, clinical specimens and materials. Lab equipment for light microscopy includes confocal microscopes, fluorescence microscopes, zoom and stereo microscopes. Microscope slides and imaging reagents are available for visualizing samples, as well as various microscope stages and incubators for large or temperature-sensitive samples. Find the best light microscopes in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.PharmaceuticalsPharmaceuticals are medicinal drugs used in healthcare to diagnose, prevent, cure and treat illnesses. Pharmaceuticals that are excreted after use appear in wastewater and can have detrimental effects on the environment.X-Ray Source

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