Tech Spotlight: FusionScope by Quantum Design
Wednesday, 1 March 2023
True Correlative AFM/SEM Microscopy with the FusionScope™
SAN DIEGO, Calif. – February 8, 2023 – Quantum Design (QD) announces the culmination of almost a decade of research into the area of correlative microscopy. The FusionScope is an innovative correlative microscope that combines the power of AFM with the benefits of SEM imaging. Designed from the ground up to seamlessly integrate these two powerful techniques, the FusionScope offers benefits previously unseen in this field.
“I love exciting technology and the FusionScope is a perfect example of that,” stated Chris Schwalb, COO of QD Microscopy. “The seamless combination of two of the most powerful microscopy techniques – AFM and SEM – enables the user completely new insights into the micro- and nanoworld.”
FusionScope takes advantage of an innovative shared coordinate system that automatically aligns both AFM and SEM operations for measurements and sample positioning. Through this integrated shared mapping, FusionScope allows you to easily identify your area of interest, measure your sample, and combine your imaging data in real time.
“The ability to scan and image across differing magnification scales in the FusionScope is the system’s major enabling attribute,” said Stefano Spagna, CTO of Quantum Design. “It allows smooth image transitions between millimeter, micron, and sub-nanometer scales, allowing you to see new correspondences in your data from specific sample areas.”
Most standard AFM measurement modes are supported within the FusionScope, such as Contact and Tapping modes. In addition, FusionScope offers the Finite Impulse Response Excitation (FIRE) mode, which is a novel off-resonance intermittent contact scanning force microscopy technique that characterizes nanomechanical properties such as sample stiffness and tip adhesion (or “stickiness”). Advanced AFM modes include conductive atomic force microscopy (C-AFM) and magnetic force microscopy (MFM). Switching to these advanced measurement modes is as easy as swapping out the included self-sensing cantilevers.
“Quantum Design prides itself on designing cutting-edge technology that also automates many routine functions so that it is easier and more intuitive to use,” responded Barak Green, Marketing Manager for Quantum Design. “The goal and strength of QD has always been to shorten the process to high quality data acquisition for the user, thereby removing unnecessary obstacles in the way of future research.”
Researchers will be able to use the FusionScope software to interactively overlay AFM imaging data onto SEM images while operating the microscope in real time, allowing them to create stunning 2D and 3D visualizations with nanoscale resolution. In addition, FusionScope’s software provides automation for most routine functions within an intuitive and customizable user interface, and intelligent data handling to organize all your AFM and SEM data for easy access in the future.
FusionScope officially launched to the public at the end of 2022, and QD will be exhibiting a working FusionScope at the upcoming APS March Meeting in Las Vegas and The Advanced Materials Show in San Diego in March. Visit fusionscope.com to learn more.
About Quantum Design
Headquartered in San Diego, California, Quantum Design (QD) brings 40+ years of experience as the leading manufacturer of automated materials characterization systems to the field of correlative microscopy and analysis. Designing technology from the ground up based on first principles has enabled QD’s team of scientists and engineers to redefine instrument performance emphasizing exceptional user experience paired with cutting-edge innovation. QD’s mission is to deliver the highest quality possible in every part and sub-assembly of the FusionScope to assure its ultimate performance.
About QD Microscopy
Incorporated in Darmstadt, Germany in 2020, QD Microscopy was created with the charter to help develop, refine, and enhance the FusionScope technology. The team has been responsible for the development of advanced measurement modes for the FusionScope and focuses on exploring how the technology can be used to solve challenging real-world problems in the areas of nanotechnology, electronic sensing, manufacturing, failure analysis and chemistry. QD Microscopy is responsible for exploring new applications for FusionScope technology as well as suggesting areas to expand measurement capabilities. As such, they are regularly interacting with customers to learn more about their measurement needs so as to provide feedback to the QD development team on present and future instrument capabilities.