Zeiss Xradia 810 Ultra X-ray Microscope

Expanding the scope and value of non-destructive nanoscale imaging

useZeiss Xradia 810 Ultra X-ray MicroscopeAchieve spatial resolution as low as 50 nm, which is the highest among laboratory based X-ray imaging systems. The performance and flexibility of non-destructive 3D imaging experience play a crucial role in today's breakthrough research. The innovative Xradia Ultra architecture adopts X-ray optical system and synchrotron technology, with absorption and phase contrast. Now with an energy of 5.4 keV, you can increase the throughput of nanoscale imaging by 10 times. Using the low energy of Xradia 810 Ultra to achieve better contrast and image quality for mid to low Z samples. We expect to achieve advanced in-situ and 4D capabilities under different conditions to study structural evolution. Exploring the limits of material research, life sciences, natural resources, and various industrial applications using 3D X-ray imaging.

High resolution, higher contrast, faster

Zeiss solutions provide the world's non-destructive 3D X-ray imaging in laboratory instruments with resolutions as low as 50 nm. In addition to absorption and Zernike phase contrast, the Zeiss Xradia 810 Ultra features an advanced optical system improved from a synchrotron, providing the industry's best resolution and contrast for your research. This innovative instrument achieves breakthrough research by adding key non-destructive steps to your traditional imaging workflow.

By providing higher contrast for 5.4 keV research, Xradia 810 Ultra can provide high-resolution X-ray imaging for various difficult to image materials. Optimize your imaging through absorption and phase contrast, suitable for various materials such as polymers, oxides, composite materials, fuel cells, geological samples, and biomaterials. ZEISS XRM has conducted nanoscale X-ray imaging in synchrotron accelerators and laboratory facilities worldwide, providing a groundbreaking solution to help you put your research at the forefront of research.

By increasing the speed of nanoscale X-ray imaging by an order of magnitude, Xradia 810 Ultra can optimize the commercial case of XRM, whether your work is targeted at science or industry. For the Central Microscopy Laboratory, faster workflows translate into the ability to allow more users to utilize the instrument in a shorter amount of time, thereby expanding XRM to a wider user base. Similarly, you can quickly perform and replicate 4D and in-situ studies of internal structures, making these techniques applicable to a wider range of applications. If your application is highly targeted, such as digital rock physics for exploring the feasibility of oil and gas extraction, Xradia 810 Ultra can provide measurement data that can be used to characterize key parameters such as porosity within a few hours.

　　Zeiss Xradia 810 Ultra X-ray Microscopeadvantage

High resolution 3D X-ray imaging as low as 50 nanometers that can be obtained in the laboratory

Non destructive 3D X-ray imaging allows for repeated imaging of the same sample to directly observe the evolution of microstructure

Absorption and Zernike phase contrast imaging of various materials - medium to low Z, carbonate to shale, tissue to biomechanics -10 times faster at the nanoscale

Without limited access to synchrotron by researchers or the challenge of making synchrotron time more efficient, your laboratory will produce synchrotron

Expanding the scope of the central microscope laboratory to a wider range of researchers to improve economic efficiency based on faster image acquisition time

The switchable field of view range is 16 to 65 μ m, * suitable for your imaging needs

Maintain high resolution when imaging samples in situ equipment

Automatic image alignment for tomographic reconstruction

Develop, prepare, and test your planned synchrotron experiment in your laboratory to improve the effectiveness of synchrotron beam timing

Now, the Scout and Scan control system has a simple workflow based user interface, which is very suitable for central imaging laboratories, where users can have various levels of experience.