Multi-BOWS: multi-fidelity multi-objective Bayesian optimization with warm starts for nanophotonic structure design
The design of optical devices is a complex and time-consuming process. To simplify this
process, we present a novel framework of multi-fidelity multi-objective Bayesian optimization …
process, we present a novel framework of multi-fidelity multi-objective Bayesian optimization …
Flexible Embedded Metal Meshes by Sputter-Free Crack Lithography for Transparent Electrodes and Electromagnetic Interference Shielding
A facile and novel fabrication method is demonstrated for creating flexible poly (ethylene
terephthalate)(PET)-embedded silver meshes using crack lithography, reactive ion etching …
terephthalate)(PET)-embedded silver meshes using crack lithography, reactive ion etching …
[HTML][HTML] Black Silicon Surface-Enhanced Raman Spectroscopy Biosensors: Current Advances and Prospects
Y Padrez, L Golubewa - Biosensors, 2024 - mdpi.com
Black silicon was discovered by accident and considered an undesirable by-product of the
silicon industry. A highly modified surface, consisting of pyramids, needles, holes, pillars …
silicon industry. A highly modified surface, consisting of pyramids, needles, holes, pillars …
Single‐and Double‐Layer Embedded Metal Meshes for Flexible, Highly Transparent Electromagnetic Interference Shielding
Simulation and experimental studies are carried out on single‐layer and double‐layer
embedded metal meshes (SLEMM and DLEMM) to assess their performance as transparent …
embedded metal meshes (SLEMM and DLEMM) to assess their performance as transparent …
Bactericidal Performance of Nanostructures Resin Surfaces: Nanopillars versus Nanocones
Z Zhao, Y Matsushita, N Ogawa, G Inoue… - ACS Applied Nano …, 2024 - ACS Publications
Recent attention has been directed toward understanding the antibacterial mechanisms of
artificial nanostructured surfaces, aiming to elucidate design principles for next-generation …
artificial nanostructured surfaces, aiming to elucidate design principles for next-generation …