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Nanoscale Horiz., 2026, Accepted ManuscriptDOI: 10.1039/D6NH00024J, FocusTorgom Yezekyan, Sergey I. BozhevolnyiNonlocal metasurfaces extend the capabilities of flat optics by expl...
Researchers designed microfabricated silicon chip patterns that guide vibrations along set paths, enabling energy harvesting or signal processing without electricity.
Researchers created chain-like metamaterials with motorised hinges that can learn new shapes, forget old ones, and toggle between multiple forms without any central control.
In the rapidly evolving domain of wireless communications, the relentless pursuit of increased data capacity and spectral efficiency continues to drive scientific innovation. A bre...
Источник: Компьютерра - Журнал о науке и технологиях Специалисты Центра фотоники и двумерных материалов МФТИ совместно с коллегами из Китая разработали материал, который подавляет...
Quantum metamaterials enable ultrasensitive far-infrared sensing by exploiting the in-plane photoelectric effect.
Author(s): Michael SchirberA new metamaterial design eliminates internal distortions that can adversely affect applications in cloaking and sensing.[Physics 19, s60] Published Wed...
Researchers demonstrate carefully engineered metameterials dramatically boost heat transfer at the nanoscale.
A heat-resistant titanium dioxide scaffold makes it possible to nanoimprint reconfigurable phase-change metasurfaces over large areas, achieving infrared modulation and switchable...
In a groundbreaking advancement poised to redefine wearable technology and flexible electronics, researchers have developed a strain-invariant spoof plasmonic metafabric through an...
Sub-5-nm gold antennas match the scale of 2D semiconductors, concentrating light where atomically thin materials can convert and detect it.
Nature Nanotechnology, Published online: 12 May 2026; doi:10.1038/s41565-026-02174-5Tunable polaritonic skyrmions and related topological textures are generated by non-local photon...
A programmable metasurface stamps temporal codes onto ambient radio waves, enabling passive radar to detect and track drones with active radar precision and zero dedicated transmis...
A bioinspired hollow diamond foam composite increases PEG thermal conductivity by 378% and achieves 86.68% photothermal conversion efficiency for energy storage.
In a groundbreaking advance poised to revolutionize materials science and telecommunications, researchers from Imperial College London, the University of Michigan Engineering, and...
In a groundbreaking advancement poised to reshape the future of integrated photonics, researchers have unveiled a novel approach to seamlessly monolithically integrate tantalum pen...
Researchers developed a cellulose aerogel with metal-organic frameworks that absorbs microwaves, resists fire, insulates heat, and dampens sound in one lightweight material.
In a remarkable breakthrough that reshapes our understanding of metallic materials and their electronic properties, researchers at the University of Minnesota Twin Cities have unco...
In the rapidly evolving world of photonics, a recent breakthrough promises to revolutionize how optical microcavities are engineered for precise light manipulation. Researchers J....
Источник: Компьютерра - Журнал о науке и технологиях Группа американских ученых представила технологию 3D-печати, использующую сфокусированные микроволны. Разработанный метод Meta...
A 2D magnonic crystal waveguide uses a complete bandgap to route spin waves through sharp bends with over 5,000 times stronger transmission.
New process integrates electronic functionalities into broad range of multimaterial architectures, creating new classes of hybrid electronic devices previously not possible.
A new breakthrough is transforming MXenes—ultra-thin, high-tech materials—into something far more powerful and precise. Researchers have developed a cleaner, more controlled way to...
A new first-principles approach provides a unified foundation for studying complex band structure and light confinement in periodic media The post Trapping light in open space appe...
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