A computer chip that looks like a human brain. Read time: 2 minutes
Defying engineering challenges in record time, researchers at the University of Maryland developed a machine learning model that eliminates hassles in materials design to yield green technologies used in wearable heaters.
Push-back associated with trial-and-error experimental processes often delays innovations. To solve this challenge, Po-Yen Chen , an assistant professor in the Department of Chemical and Biomolecular Engineering, proposed an accelerated method to create materials used in wearable heating applications. His model, published Saturday in Nature Communications , could automate design processes by leveraging machine learning and collaborative robotics.
Similar to water-based gels, but instead made using air, aerogels are lightweight and porous materials used in thermal insulation and wearable technologies for their mechanical strength and flexibility. But despite their seemingly simplistic nature, their assembly line is quite complex. Researchers rely on endless experiments and experience-based approaches to explore the vast design space and design these materials. Want more breaking news?
Subscribe for FREE
To solve these issues, Chen’s team combined robotics, machine-learning algorithms, and material science expertise to enable aerogel design with programmable mechanical and electrical properties—breaking through scientific barriers at full speed. His prediction model is built to generate sustainable products with a 95% accuracy rate.
“Materials scientists often struggle to adopt machine learning design due to the scarcity of high-quality experimental data. Our workflow, which combines robotics and machine learning, not only enhances data quality and collection rates, but also assists researchers in navigating the complex design space,” said Chen.
The resulting strong and flexible aerogels were made using conductive titanium nanosheets, as well as naturally-occurring components such as cellulose; an organic compound found in plant cells, and gelatin; a collagen-derived protein found in animal tissue and bones.
But that’s not where it stops. This tool can be expanded to meet other applications in aerogel design. Green technologies used for oil spill cleaning, sustainable energy storage, and thermal energy products—like insulating windows—could become more accessible sooner than expected with this fast-paced assembly process.“The blending of these approaches is putting us at the frontier of material design with tailorable complex […]
Get Creative with Cannabis: The Ultimate Guide to Painting and Pottery Workshops
Creative with Cannabis Cannabis and creativity go hand in hand—especially
