Researchers developed printable 3D achromatic metalenses using grayscale electron beam lithography, dry etching, and nanoimprint lithography to control nanoscale height and shape. The metalenses focused red, green, and blue light at nearly the same plane and enabled proof-of-concept full-color OLED near-eye VR imaging with reduced chromatic blur.
This paper proposes a convergent curriculum framework that integrates nanotechnology, MEMS, magnetic materials, and generative and agentic AI to strengthen U.S. advanced-manufacturing workforce development. It argues that future competitiveness depends on stackable credentials, shared lab infrastructure, industry-academia partnerships, and training that links fabrication, metrology, automation, data interpretation, and ethical oversight.
Researchers developed a PEG nanofiller method to stabilize hydrogel microparticles during lyophilization, ensuring structural integrity for long-term storage.
Researchers developed a scalable fabrication process using soft nanoimprint lithography to create lithium niobate metalenses, enabling efficient nonlinear optics through enhanced second-harmonic generation
This study presents a kombucha-derived bioink and digital biopen, advancing in vivo tissue engineering with efficient, on-site application for wound repair.
Understanding hBN epitaxial growth on Ru(0001) through DFT and microkinetic modeling highlights key mechanisms and the impact of substrate temperature.
A team of scientists led by Professor Geyu Lu from the State Key Laboratory of Integrated Optoelectronics, College of Electronic Science and Engineering, Jilin University, China, and colleagues developed a UCNPs/CuxOS@ZIF nanocomposite probe used for in vitro UCL/CD dual-mode sensing for H2S and in vivo imaging. The study was recently published in Light: Science & Application.
A group of scientists at the Beijing National Laboratory for Molecular Sciences, under the direction of Wen-Bin Zhang and Yu Shao, released a review in the Chinese Journal of Polymer Science about non-traditional 2D periodic nanopatterns.
A recent study conducted by researchers at Pohang University of Science and Technology represents a significant stride in advancing novel nanocomposites and defining an optimal criterion for crafting metaholograms tailored to the ultraviolet spectrum rather than the visible.
Carnegie Mellon University's Yongxin (Leon) Zhao and the Chinese University of Hong Kong's Shih-Chi Chen have a big idea for manufacturing nanodevices.
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