ResourceLab Automation
ZEISS Atlas 5 Array Tomography Image Your Serial Sections Fast and Efficiently
9 May 2016This application note describes how to use the ZEISS Atlas 5 Array Tomography to image serial sections fast and efficiently at nano scale resolution. Atlas 5 Array Tomography has been specifically designed for automated imaging of serial sections to enable 3D visualizations of large volumes.
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ZEISS Atlas 5
ZEISS Research Microscopy SolutionsLarge area imaging for SEM, FE-SEM & FIB-SEM ATLAS combines a 16 bit scan generator and dual super-sampling signal acquisition hardware with image processing and control software for your ZEISS electron microscope. Acquire images up to 32 k x 32 k pixels, with dwell times from 100 ns to > 100 s, adjustable in 100 ns increments. Save your images with eight or sixteen bits of intensity. With the ATLAS “Mosaic Tool” you create large image montages, automatically moving from image tile to tile, and mosaic site to site, resulting in an “Extreme Field of View” image, at SEM nanometer scale resolution. ATLAS provides • reduced number of tiles to acquire, reducing stage motion delay and areal fraction of each image “lost” to overlap • reduced number of overlap “seams”, leading to less beam damage and degradation of the sample • reduced computational complexity
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Applications of nanotechnology include medicine and medical devices, electronics, air and water purification, food science and energy production.Robotic InstrumentsRobotic instruments can be used for high-throughput automation of many lab processes. Such processes use instruments for assays like cell based assays and ELISA, for sample preparation like shakers, centrifuges and incubators, and for analysis such as sequencing and western blot analyzers. Useful features of robotic instruments include speed, reproducibility, barcode readers, software and automation.Software PlatformsSoftware platforms are useful for various stages of laboratory experiments from data collection to data storage and processing. 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It offers enhanced imaging capabilities compared to traditional optical microscopy and is widely used in biological and material science research. Explore digital microscopy systems in our peer-reviewed product directory; compare products, check reviews, and get pricing directly from manufacturers.3D Imaging3D imaging technologies allow for the visualization and analysis of three-dimensional structures at high resolution. These systems are used in fields like molecular biology, material science, and medical diagnostics. 3D imaging can be applied to visualize cells, tissues, and organs, providing valuable insights into their structure and function. Browse our peer-reviewed product directory to find the best 3D imaging solutions, compare products, check reviews, and get pricing directly from manufacturers.MicroscopyMicroscopy is a technique used to observe small objects in detail, from cells to materials, using light or electron microscopes. It enables researchers to examine structures with high resolution, aiding in fields such as biology, medicine, and materials science. With advanced microscopy techniques, scientists can gain insights into cellular processes, tissue structures, and material properties. Explore the best microscopy solutions in our peer-reviewed product directory, compare products, read customer reviews, and get pricing directly from manufacturers.Sample ProcessingSample processing is required to prepare samples prior to analysis. Technologies used for sample processing include homogenizers, grinders, mills and mixers.Digital ImagingDigital imaging is a technique that captures images of biological and chemical samples in high resolution, often using advanced cameras and sensors. This technology is crucial in microscopy, diagnostics, and quality control. Explore digital imaging systems in our peer-reviewed product directory; compare products, check reviews, and get pricing directly from manufacturers.Correlative Microscopy