A flexible nanoimprint lithography technique was applied to fabricate bioinspired microstructures on curved surfaces, which can significantly enhance the performance of III-nitride optoelectronic devices.
Researchers used origami principles to position sensors in 3D-bioprinted tissue models. An origami-inspired structure folds around tissue, enabling precise sensor placement.
By composing an alloy made of silicon, germanium and tin, researchers were able to create a thermoelectric material, promising to transform the waste heat of computer processors back into electricity.
Researchers map confined light states in 3D photonic crystals, revealing novel symmetries and paving the way for advanced optical devices and quantum technologies.
