Materials Characterization Feature
Materials characterization is at the forefront of groundbreaking advancements in areas such as battery research, materials engineering, and plastic analysis. In battery development, new characterization methods are enabling deeper insights into performance, efficiency, and longevity, essential for next-generation energy storage. In materials engineering, new innovations are improving the design of stronger, lighter, and more durable materials for industries ranging from aerospace to automotive. Additionally, advancements in plastic characterization are enhancing sustainability by supporting better recycling techniques and the development of eco-friendly alternatives.
Read on in this editorial feature, as we explore how these strides are driving progress toward more efficient, durable, and environmentally responsible technologies across a diverse range of sectors.
Transform your plastic characterization
Gain confidence in precise and reliable material analysis with prepASH. This device utilizes thermogravimetric analysis (TGA) to safely and quickly determine the moisture and ash content of your sample.
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MEET and Shimadzu revolutionize battery research
Dr. Sascha Nowak from MEET Battery Research Center showcases their research collaboration with Shimadzu, focusing on electrolyte aging, metal migration, recycling, and battery safety using advanced instruments for sustainable battery technologies.
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Advancing materials engineering with microscopy
Explore this expert guide showcasing analytical techniques to investigate the intricacies of your materials' behavior. Unlock these insights to elevate your materials' properties and tailor them to your specific applications.
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