Transmission electron microscopy (TEM) has always been a cornerstone for nanoscale research, but what if you push the boundaries further? Fusion AX takes in situ TEM to the next level by combining precise heating and electrical biasing capabilities, allowing researchers to observe and control dynamic processes in real time. Are you interested in learning which applications can be researched using in situ heating and biasing EM?
Applications Enabled by Fusion AX:
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- Batteries: Visualize nanoscale processes that control solid-state battery material performance.
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- Electronic Devices: Investigate dopant diffusion, resistivity, and material interfaces to improve device reliability and functionality.
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- Heterogeneous Catalysis: Visualize real-time structural and chemical changes in catalysts at varying temperatures, or combine the Fusion AX system with your environmental TEM for gas phase studies!
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- Materials Science: Examine sintering, crystallization, and phase transformations with heating up to 1200 °C for insights into material behavior and stability.
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- Nanomaterial Synthesis: Track the growth and transformation of nanostructures with precise electrical control to refine synthesis techniques.
With the Fusion AX system nanoscale samples can be visualized while heating, adding electrical biasing or both! By marrying the precision of TEM with these capabilities, researchers can now ask questions—and get answers—that were previously out of reach.
Would you like to understand more about in situ research a Fusion AX system?
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- Check out our Fusion AX Brochure.
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- Explore our extended bibliography!
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- Want to chat with someone on our team? Contact us here!
