Posts

Enhancing wave control with complex frequency excitations may revolutionize sensing, imaging and communication

https://www.eurekalert.org/news-releases/1079064 "less bulky/ complex, no need to add energy... tailoring excitation form, not materials themselves, emulates system gain/ loss, unlocking perfect absorption or super-resolution imaging, surpassing passivity limitations in wave-matter interactions... accesses non-Hermitian responses... designing excitations with amplitudes that exponentially grow or decay engaging natural resonances/ anti-resonances... dynamic light control, signal absorption/ amplification, directional wave transport, enhanced quantum state control"

Metatron N.R.G.'s micro-plasmoid based desktop-computer-sized fusion reactor could revolutionize world of clean, affordable energy

  https://www.israel21c.org/building-a-nuclear-reactor-the-size-of-a-desktop-computer/ "achieved ignition in plasmoids, now aims to build fully functioning prototype directly generating electric power within 3 years... solved core stability challenges... cost-effective, scalable... difficulties creating extreme temperatures/ pressures overcome using plasmoids, tangled bundles of super-hot charged gas (plasma) held together by magnetic fields... breakthrough is in generating new types of stable plasmoids that can effectively catalyze fusion via the quantum mechanical effect known as tunnelling" Grok's AI says:  "faces significant challenges: complexities in plasmoid stability/ materials, need funding beyond $2M used for achieving ignition, engineering/reg hurdles for home-use. small Israeli 3-person team/  ambitious timelines" Key Citations:   Metatron NRG Official Website, details on fusion technology ,  CTech Article on Metatron NRG, fusion claims and fund...

Significantly enhanced stability of Majorana zero modes a major advance towards fault-tolerant quantum computing

https://www.eurekalert.org/news-releases/1079022 "Majorana zero modes theoretically immune to environmental disturbances causing qubit decoherence... imperfections in traditional materials addressed constructing 3-site Kitaev chain, stepping stone towards topological superconductors, using quantum dots coupled by superconducting segments in hybrid semiconductor-superconductor nanowires, allowing precise control of quantum states... more spatially separated, reducing their interactions exponentially enhancing stability... larger quantum-dot arrays"

Technique removes defects in molybdenum disulfide enabling it to be a fast, low-power semiconductor

https://phys.org/news/2025-03-defect-technique-paves-faster-power.html "MoS2 deposition must be done at low temperature to prevent damaging existing silicon components... utilized pentafluorobenzenethiol at 200°C to repair defects in MoS2, achieving molybdenum to sulfur atomic ratio to near-ideal 1:1.98... increased chip density, minimized leakage current enabling heat-free chip, 2.5X better charge mobility compared to devices with defects, faster charge movement enabling quicker operational speed, power consumption sub-threshold swing value reduced 40%"

Self-organized Infomorphic Artificial Neurons learn independently, drawing necessary information from their immediate network

https://techxplore.com/news/2025-03-infomorphic-neurons-independently.html "neurons find their specific learning rules themselves, deciding which inputs are/ are not relevant to meet the scientist's very general, easy-to-understand learning goals... inspired by cerebral cortex's pyramidal cells... scientists focused on learning process of each individual neuron, applying information-theoretic measure precisely adjusting whether a neuron should seek more redundancy with its neighbors, collaborate synergistically, or try to specialize in its own part of the network's information... machine learning"

AI-assisted 3D extrusion-based food printing combined with IR cooking, for safer, more efficient, and visually appealing food production

https://www.eurekalert.org/news-releases/1078779 "generative algorithms/ Python scripts craft intricate starch-based foods... graphene heaters cook food that retains intended shape/ quality... AI enables use by even computer novices... reduced contamination risks... tailors nutrition for specific needs (medical, restaurants)... merges technology/ culinary creativity... cross-disciplinary: user-centric design, mechanical engineering, food science, chemistry, AI... future: refine by examining the preservation of heat-sensitive vitamins and optimizing starch digestibility"

Miniature, lightweight and energy efficient pumps and valves based on motion of dielectric elastomeric thin-film silicone

https://www.eurekalert.org/news-releases/1076700 "no need for compressed air, motors, lubricants, copper, rare earths... 400X less energy, silent, cleanroom-compatible, can be continuously controlled while operating... can pull vacuum down to 300 mb pressure, deliver exact liquid quantities, act as stepless switches... silicone films (flexible electrically conducting layer printed onto each side) moved applying a small electrical voltage... self-sensing/ reporting... brake boosters, surgical suction, pharmaceutical/ biotech/ foods (freeze drying, sealing, distillation), robot grippers"

Inertial Navigation Systems integrated with Visible Light Positioning deliver robust indoor navigation in dynamic environments

https://www.eurekalert.org/news-releases/1076318 "enhances positioning accuracy, addressing dynamic inclination changes and signal blockages, employing graph optimization estimating robot's pose/ identifying unknown LED locations, with 10 cm positioning accuracy/ inclination precision within 1°, reported 100% blockage detection rate... photodiode and LED miniaturization/ low cost enables alternative to Simultaneous Localization and Mapping in robotics field... robotics, wearable devices, Automated Guided Vehicles/ robotic arms... IoT-driven applications"

Enhancing silver clusters' phosphorescence quantum yield incorporating heavy atom effect, using encapsulated sulfide ions or iodide anions

https://phys.org/news/2025-03-potential-heavy-atom-effect-metal.html "ligand-protected metal clusters... facilitates excited state intersystem crossing... S@Ag54 and I@Ag54 clusters formed, upon substitution of S2− with I−... luminescent materials/ triplet sensitizers, medical imaging, TV screens, photonic devices, energy conversion technologies... future: explore how encapsulated species (in this case, the added ions) influence other photophysical and electronic properties"

AI and Adaptive Optics propel free-space quantum communication into a new era

https://www.eurekalert.org/news-releases/1075687 "ultra-secure, long-range quantum communication... unpredictable nature of atmospheric turbulence, limitations in optical wavefront correction techniques, both overcome using AI-powered turbulence forecasting tool based on Recurrent Neural Networks, and a high-speed Adaptive Optics system rectifying turbulence-induced errors in quantum channels... enables quantum experiments at optimal times, maximizing efficiency of free-space quantum links... deformable mirror changes shape up to 3K times/ per second"

Trapping/ cooling atoms below 1°mK for quantum experiments/ applications moved from bulky lab setups to chip-based devices

https://www.eurekalert.org/news-releases/1075771 "replaces free-space lasers/ optics generating beams manipulated by lenses, mirrors modulators, combined with magnetic coils/ atoms in vacuum, creating cold atoms... compact optics/ integrated photonics embedded into low-loss silicon nitride waveguide integration platform... atomic cell vacuum chamber... larger the beams the more atoms trapped into cloud and interrogated... sensing faint electromagnetic signals/ fundamental particles, precision timekeeping/ navigation, quantum computing"

Palladium-liquid gallium catalyst transforms chemical manufacturing, boosting efficiency, speed, safety and sustainability

https://phys.org/news/2025-03-palladium-liquid-gallium-catalyst-chemical.html "self-regenerating, utilizing fluid-like behavior of palladium atoms in liquid gallium... Suzuki-Miyaura cross-coupling reactions forming carbon-carbon bonds accelerated by up to 100K times faster than existing palladium catalysts... palladium atoms just below liquid surface activate gallium atoms above, where reaction happens... heterogeneous catalyst without palladium ions leaching into/ contaminating pharmaceutical products... pharmaceuticals, eco-friendly agrochemicals, plastics, polymers, electronic components"

High-entropy hydrogel becomes rigid when heated/ soft when cooled, and is switchable in seconds for adaptive armor and soft robotics

https://www.eurekalert.org/news-releases/1078596 "high-entropy topology lowers energy barriers... armor hardens on impact: 760X modulus increase at 80°C, supports 1 kg weight, resists impact at 474 J/m)... hydrophilic acrylamide units in calcium acrylate polymer network disrupt calcium-crosslinked chains overcoming slow phase dissolution for ultrafast recovery: glassy to rubbery in 28 seconds vs. 23 minutes, softens for comfort (20°C)... soft robotics/ heat-triggered shape changes for precise tasks, fabrics stretch >20X, conforms to hand based on body temperature"

Varying voltage of field-effect transistor uses potassium ions to change molybdenum disulfide semiconductor to metal, superconductor or insulator

https://phys.org/news/2025-03-transistor-reshapes-electronic-properties-2d.html "sulfur atoms can be arranged in 2 different ways, creating 2H (semiconductor) or 1T (metallic)... higher voltage causes change from semiconductor to metallic, then, 2 options: (1) precisely guiding potassium ions into material/ cooling to –268°C, metal becomes superconductor, or (2) allowing potassium ions to leak out of metal at –193°C, metal becomes insulator... future: discovering new superconductors using this method on various 2D semiconductors that are like molybdenum disulfide"

Meta-optic gratings replace conventional lenses, enabling targeted control of light waves' temporal shift, intensity, and direction of oscillation

https://www.eurekalert.org/news-releases/1078599 "single metasurface replaces multiple optical components... scalable, simpler production (lithography/ etching), smaller... overcomes diffraction grating efficiency's sharp decline as light incidence angle increases... 4X more efficient, unprecedented light control under challenging conditions... meta-optical flat structure suitable for cameras, sensors, AR... other apps: material sorting/ quality control, medical imaging, microscopy, solar cells, robotics, autonomous driving, spectroscopy, telecommunications, laser systems"

Breakthrough harnesses heat to control magnetism in 2D van der Waals materials, enabling ultrafast laser-driven storage devices

https://phys.org/news/2025-03-scientists-breakthrough-harnessing-magnetism-2d.html " 2D materials' weak interlayer bonds allow low thermal conductivity/ high anisotropic heat dissipation... controlling heat flow/ magnetic properties on timescales as short as 100's of fs... specific wavelength laser pulses heat material, then pulses at another wavelength probe resulting changes for real-time temperature/ magnetization monitoring, enabling sub-ps temporal resolution/ sub-µm spatial resolution... manipulate magnetic layers' thickness enhancing heat dissipation/ accelerating magnetization recovery"

Liquid-crystal-based photonic circuit enables manipulation of many hundreds of optical modes in a compact, free-space, 2D-setup

https://www.eurekalert.org/news-releases/1078482 "overcomes optical loss increase as number of modes grow... set of 3 LC metasurfaces simulating quantum processes, such as quantum walk... in theory, can handle as many modes as needed while maintaining constant optical losses... overcomes LC pattern disruption risk, using algorithm creating smooth patterns, incorporating isolated vortices not significantly impacting light propagation... simulated up to 800 optical modes, much more than could be achieved with 1D-setup... scalable quantum simulations/ all-optical AI"

Graphene-based programmable surfaces dynamically shape THz and millimeter waves, advancing non-invasive imaging, 6G

https://phys.org/news/2025-03-graphene-based-programmable-surfaces-advance.html "active spatial light modulator/ surface with >300K sub-wavelength pixels capable of manipulating transmissive/ reflective THz, using large-area thin-film transistor arrays, enabling high-speed, programmable control over amplitude/ phase... real time configuring complex THz wavefronts... programmable THz transmission patterns, beam steering carrying orbital angular momentum, grayscale holography,.. proof-of-concept single-pixel THz camera.... fine-tuned graphene electrostatic gating... imaging concealed metals"

Non-Abelian quantum holonomy mathematical geometric structure entangles photons without requiring quantum measurement

https://phys.org/news/2025-03-protocol-enables-photon-entanglement-quantum.html "enables potentially transformative on-chip photonic quantum computers: room temperature, portable, easily integrated with existing quantum communication systems/ links... photonics-based quantum computer building using light... overcomes tendency of photons not to interact with each other, instead offering consistent, controllable, deterministic entanglement...  without requiring quantum measurement" Related: Entangled in self-discovery: quantum computers analyze their own entanglement https://www.eurekalert.org/news-releases/1078242

Orion encryption of AI practically/ efficiently operates directly on encrypted data without needing to decrypt it first, with profound implications

https://techxplore.com/news/2025-03-encryption-breakthrough-lays-groundwork-privacy.html "automatically/ seamlessly integrates PyTorch written deep learning models into efficient fully homomorphic encryption, overcoming computational overhead/ technical hurdles adapting neural networks them... allows clients' use without releasing their private data... optimizes how encrypted data structured, streamlines encryption-related processes, managing accumulated noise... enables computations on much larger networks, 2.38X faster, 139 million parameters (500X more)... easily deployable across industries"

Super-Turing AI is revolutionary because training and memory happen in the same place within the computer's hardware

https://techxplore.com/news/2025-03-super-turing-ai-energy-mimicking.html "mimics human brain's synaptic plasticity where new circuits form/ alter existing ones at same locations that store/ retrieve information... no backpropagation, which is not biologically plausible and is computationally intensive... utilized Hebbian learning (cells that fire together, wire together), spike-timing-dependent plasticity... faster, more efficient, uses less energy than traditional AI"

AI-powered single monocular camera enables autonomous vehicles to react fast, see in 3D, and operate more safely/ cheaply

https://techxplore.com/news/2025-03-ai-camera-tech-cars.html "MonoFG: state-of-the-art accuracy, about $300/ unit (LiDAR costs up to $75K)... accurately distinguishea between foreground/ background, detecting pedestrians, cyclists, other vehicles... virtually real-time 18 fps decision-making, accuracy comparable with LiDAR, ranked No.1 for cyclist detection... this human-first AI reduces accident risks and increases public trust in self-driving technology. Real-world testing shows that MonoFG enhances road safety by enabling smarter, real-time decision-making"

World’s first dynamic shape-morphing smartphone-type screen with built-in speaker, all while maintaining ultra-thin flexibility

https://www.eurekalert.org/news-releases/1078053 "smaller, less complex, bendable, foldable, rollable, stretchable... no hinges, sliders, motorized arms... ultra-thin piezoelectric polymer actuator enables curves: concave/ convex, S-shaped, inversed S-Shaped, wave-like... deformation achieved through electrical signals... display surface emits sound... morphing mobile displays, immersive automotive dashboards, audiovisual wearables, interactive soft robots with expressive surfaces"

Cascaded-mode interferometer (multimodal light manipulator) could replace beam-splitting waveguides for fiber optics

https://www.eurekalert.org/news-releases/1078163 "single waveguide on silicon-on-insulator platform creating multiple signal paths simultaneously controlling light amplitude/ phase (optical spectral shaping) in 1 compact package... etched nanoscale gratings controlling energy exchange affecting frequency/ color, intensity... light moves in different patterns or transverse modes... enables precise, sharp color lines, light waves with distinct features... modulating/ switching fiber-optic light signals, nanophotonic gas sensors, optical on-chip quantum computing"

Deep learning optimized isotropic diffractive layers focus unidirectional light forward, suppressing unwanted backward focusing

https://phys.org/news/2025-03-unveil-unidirectional-focusing-diffractive-optics.html "compact, broadband... no: costly, bulky specialized material properties/ nonlinear materials, high-power laser sources, need for active modulation, polarization/ wavelength sensitivity, diagonal illumination issues... 3D printed 2-layer diffractive structure that unidirectional focused THz... signal efficiency, security, clarity, reduced background interference... free-space optical links, imaging and sensing, laser machining, biomedical, metrology, security, defense, optical communications"

Cryogenic in-memory computing bridges AI with quantum computing, increasing energy efficiency and reducing latency

https://www.eurekalert.org/news-releases/1077933 "AI accelerators, quantum processors, 10s of cm apart...  magnetic topological insulator  (chromium-doped bismuth-antimony-telluride) Hall-bar have large bulk energy band gaps like insulators, conducting states on surfaces/ edges, large spin current generation efficiency related to spin-momentum locking of surface states, quantum anomalous Hall effect... efficient current-induced magnetization switching... strong signals, no sneak paths,.. 4 devices achieved 724 tera-operations per second per Watt performance level"

Patterned spintronic emitter enables room-temperature, polarization/ chirality tuning during THz wave generation

https://www.eurekalert.org/news-releases/1077915 "no bulky external components (wave plates, metamaterials)... efficient, broad frequency ranges, enables compact devices... microscale stripe pattern emitter: thin-film layers of tungsten, cobalt-iron-boron, platinum, exposed to ultrafast laser pulses, generating spin current converted into an electrical charge through inverse spin Hall effect... rotating emitter switches between linear, elliptical, circular (>0.85 ellipticity across 0.74–1.66 THz range) polarization states...data transmission, imaging, sensing." Related: IMDEA Networks revolutionizes 6G networks with DISCO6G project: real-time communication and sensing https://www.eurekalert.org/news-releases/1077581

Hybrid vectorial/ scalar electromagnetic toroidal vortices: A transformative advancement in communications and pushing detection limits

https://www.eurekalert.org/news-releases/1075640 "excitations forming in free air or other fluids... integrates topological skyrmions, transverse orbital angular momentum, spatiotemporal fields, electromagnetic vortex streets, forming propagation-stable electromagnetic quasi-particles... radially polarized pulse emitted from coaxial horn antenna, converted using a designed metasurface... stable signal delivery... structured wavefront engineering, topologically nontrivial light-matter interactions, quantum control, wave-matter interactions, high-precision sensing/ imaging"

Unraveling how chirality, which creates two distinct states, could one day be used to store digital information

https://www.eurekalert.org/news-releases/1075152 "helimagnets exhibit chirality through magnetism... rectification, nonreciprocal electronic transport, directly reflects/ allows reading this chirality... quantum helimagnet α-EuP3 has local magnetic moments with chiral magnetic texture... magnetic structure controlled using external magnetic fields, which in turn manipulates electronic behavior revealing nonreciprocal transport's microscopic origins... altering magnetism between chiral (strong rectification)/ achiral (no rectification)... functional quantum chiral information storage"

Photonics with advanced CMOS electronics enables energy-efficient, high-bandwidth data communication for faster, more efficient AI

https://phys.org/news/2025-03-generation-ai-hardware-3d-photonic.html "transferring vast data volume: 80 photonic transmitters and receivers within low cost, compact 3D chip delivers 800 Gb/s bandwidth, 5.3 Tb/s/mm2 bandwidth density... low energy consumption: 120 fJ/ bit...large-scale AI models, real-time data processing in autonomous systems, high-performance computing, telecommunications, disaggregated memory systems... scalable fabrication in existing foundries"

Eco-friendly ultra-thin bismuth remains stable from near absolute zero to room temperature, enabling highly stable electronic components

https://phys.org/news/2025-03-ultra-thin-bismuth-unexpected-green.html#google_vignette "non-toxic, biocompatible... temperature-independent anomalous Hall effect in 68-nm-thick bismuth flake... patterned microscopic trenches onto semiconductor wafer, mechanically shaved off thin layers... bismuth's atomic structure constrains electron movement mimicing topological materials' behavior... highly efficient, could revolutionize computing... future: explore whether bismuth's AHE can be converted into its quantum counterpart for higher temperature function... electronic components/ devices: space exploration, medical"

World's first quantum microsatellite demonstrates real-time, secure quantum key distribution to multiple compact, mobile ground stations

https://phys.org/news/2025-03-world-quantum-microsatellite-communication-multiple.html "decoy-state QKD light sources for quantum state preparation, real-time key distillation, encrypted communication based on laser communication, high-precision tracking based on satellite attitude control to maintain stable optical links... compact optical ground stations reduces weight 2 orders magnitude to <100 kg... transmitted approximately 250 million quantum photons/ second, up to 1 Mbits secure keys for each satellite pass... between Beijing and Stellenbosch, 12,900 km apart... quantum communication/ internet"

Breakthrough makes OLED pixels inherently emit circularly polarized light, improving OLED brightness and efficiency

https://www.flatpanelshd.com/news.php?subaction=showfull&id=1742376516 "eliminating external polarizers that had cut brightness up to 50%... chiral semiconductors using triazatruxene enables naturally spiraling light, record-breaking efficiency, brightness, polarisation levels... Samsung’s 5000-nit OLED uses on-cell film instead of external polarizer, gaining about 33% brightness, but relies on external films to suppress reflections – not polarized emission... traps chiral structure within stable, non-crystallising matrix... commercialization few years away"

Compact, solid-state laser generates 193-nm deep UV coherent vortex advancing semiconductor lithography and more

https://www.eurekalert.org/news-releases/1077709 "reduced power consumption... 6 kHz repetition rate, utilizes homemade Yb:YAG crystal amplifier producing 1030-nm laser divided into: 4th-harmonic generation of 258-nm laser with 1.2W output power, and parametric amplifier is pumped generating 1553-nm laser with 700mW power... combined in cascaded lithium triborate crystals producing 193-nm laser with 70mW power, <880 MHz linewidth... generates vortex beam carrying orbital angular momentum... spectroscopy, material processing, quantum technology"

Innovative technology enables rapid catalytic thin film manufacturing in one minute using oil droplets dispersed in water.

https://phys.org/news/2025-03-technology-enables-rapid-thin-minute.html "nanomaterial precursors attached to surface of oil droplets float to water's surface, hydrogen peroxide added decomposing droplets, producing gas bubbles lifting precursors assembling them into thin film... enables thickness control, adjustable from 350 μm, and thin film synthesis covering up to 100 cm² area using various raw materials... films porous, mechanically strong/ flexible, have dense binding structure enabling easy transfer to substrates without damage... coating with platinum makes them catalytic, for flexible electrodes"

Using perovskite to make LED pixels as small as a virus sharpens video images

https://techxplore.com/news/2025-03-perovskite-pixels-small-virus.html "micro-LED today's pixel standard, based on II-V semiconductors, would be too expensive/ inefficient to make any smaller... semiconductors from perovskite cheaper even when reduced to only 90 nm width, same brightness/ no loss of efficiency... translates to 127K pixels/ inch record-high pixel density... thus far are all monochrome... future: test lifetime, test color perovskite LEDs for brightness/ efficiency... super-high-resolution augmented reality devices"

Simple superconductivity control by adjusting the twist angle of atomically thin layers within a layered device

https://www.eurekalert.org/news-releases/1077431 "fine tuning of superconducting gap, the energy threshold required to break apart Cooper pairs... larger gap allows superconductivity to persist at higher temperatures... niobium diselenide superconductor deposited on graphene substrate, precisely adjusting layers' twist angle changes superconducting gap within momentum space... future: integrating magnetic layers into structure enabling both spin, momentum selectivity... superconductors with tailored properties, energy-efficient technologies, quantum computing" Related: New superconducting state discovered: Cooper-pair density modulation https://phys.org/news/2025-03-superconducting-state-cooper-pair-density.html NUS physicists discover a copper-free high-temperature superconducting oxide https://www.eurekalert.org/news-releases/1078427

Low-noise transducers can bridge the gap between microwave and optical qubits

https://phys.org/news/2025-03-noise-transducers-bridge-gap-microwave.html   "microwave photons as qubits: ease of control/ scalable fabrication, cooled to -459.6°F to keep background noise low... room temperature transmitting via optical cables requires conversion to higher-energy optical photons using on-chip silicon beam transducer vibrating at 5 GHz coupled to microwave resonator... electrostatic actuation converts to mechanical vibration, which with laser converts to optical photon... conversion 100X faster with same low noise... internet of superconducting quantum computers"

Theion's crystal sulfur battery has three times higher energy density than lithium-ion batteries at one-third the cost

https://www.renewableenergymagazine.com/storage/berlinbased-theion-develops-crystal-sulphur-battery-tech-20250320 "overcomes sulfur batteries' inferior life-cycles, which need to reach over. 1K to be economically viable... based on sulfur’s monoclinic gamma crystal structure, together with patented processes... upcycled  from sulfur waste material, replacing nickel/ cobalt... cathode raw material 99% cheaper than lithium-ion components, and manufacturing less energy-intensive, thereby improving overall sustainability. It also offers improved safety, addressing critical issues in battery performance... secured €15 million funding"

Stable shaping of light through dynamic inherently turbulent scattering media such as living tissue and the atmosphere

https://phys.org/news/2025-03-calm-storm-technique-enables-stable.html "dynamic scattering media has slower/ faster moving regions at any given time... automatically sends light through slowest (more stable) moving regions... using methods inspired by way artificial neural networks are trained, choose laser shape resulting in least temporal fluctuation... ameliorates perceived twinkle from starlight's scattering from continuously changing atmosphere... higher resolution biomedical imaging (flexible micro-endoscopes), faster optical data transfer"

VIK enables anyone to rapidly reconfigure electromechanical building blocks prototyping large, sturdy structural electronics

https://www.eurekalert.org/news-releases/1077376 "voxels: lightweight 50 cent 3D aluminum cross-bracing lattice (faces: 8 triangular, 6 square) strong enough to support 228 kg with integrated sensing, response, processing abilities transmitting data, power, mechanical forces, without wires/ 3D printing/ laser cutting/ additional tools... iterative end-to-end prototyping, simulating structure’s response to mechanical loads/ iterate design/ plug and play... also, Finite Element Analysis simulation model... chair monitoring someone’s posture, airplane components, wind turbines"

Groundbreaking method excites phonon-polaritons for nanoscale lasers and efficient electronic device cooling

https://www.eurekalert.org/news-releases/1077028 "generates long-wave IR/ THz, cheaper, smaller, efficient exciting/ detecting phonon-polariton waves... emit using electrical current, graphene sandwiched between 2 hexagonal boron nitride slabs possessing significantly higher density of states... waves bounce back/ forth between boundaries... 1 V/µm current passed through graphene whose electrons accelerate/ scatter for efficient HPhP electroluminescence... cool-running smartphone or other device: sub-wavelength imaging, molecular sensing"

Xstrings 3D prints bionic robots and sculptures stringing objects together so that they replicate the fluid, precise motion of humans

https://techxplore.com/news/2025-03-3d-approach-dynamic-bionic-robots.html "simple, quick... objects made to bend, coil, twist, fold, compress... software fully customizes designs, sending to multi-material 3D printing all parts in desired locations in 1 step, including cables, joints... 40% less production time... bring to life via fused deposition modeling 3D printer: plastic melted down (260°C) into nozzle before filaments poured out building up (10-20 mm/sec)... lays strings (endure >60K pullings) horizontally/ build around them... robotic fingers/ fist, art installations, dynamic fashion designs"

First hollow-core fiber that selectively guides optical vortices depending on their helicity promises optical advances

https://phys.org/news/2025-03-helically-dichroic-hollow-core-fiber.html "optical elements have not demonstrated high levels of discrimination distinguishing optical vortice helicity...  new hollow-core waveguide exhibits strong helical dichroism, as optical attenuation depends on guided light's orbital angular momentum... waveguide transmits optical vortices with specific helicity/ largely attenuates vortices with opposite helicity... can also be designed for spectral regions inaccessible using other optical systems... chiral sensing, vortex mode generation, optical communications"

Researchers advance substrate engineering pathways to better, more energy-efficient power electronics

https://phys.org/news/2025-03-advance-substrate-pathways-power-electronics.html "aluminum gallium nitride increases power electronics' energy efficiency/ performance, through growth on electrically conductive, lattice-matched tantalum carbide substrate... overcomes substrate cracking, dislocating line defects distorting lattice due to atoms' misalignment, diminishing performance... tantalum carbide thin films deposited onto substrate using radio frequency sputtering, high-temperature annealing... detailed atomic structure at interface determines performance... film polarity control important"

Well-arranged electrical charges in BiNiO3 subjected to high pressure at low temperatures are disrupted, leading to a charge glass state

https://phys.org/news/2025-03-discovery-pressure-driven-amorphization-material.html "perovskite oxide BiNiO3 usually maintains Bi3+ and Bi5+ ions in columnar order... at 4 - 5 GPa and <200°K pattern collapses, resulting in various transformations: charge transfer, charge disproportionation, charge amorphization (random distribution of electrical charges)... enables design of materials with unusual properties: negative thermal expansion (when heating under pressure transitions to metallic state accompanied by reduced volume), magnetocaloric effect... devices needing precise control (sensors)"

Light interacting with metallic nanostructures generates plasmonic hot carriers which convert the light into electrical/ chemical energy

https://phys.org/news/2025-03-advancing-electricity-energy-conversion-method.html "extends lifespan of plasmonic hot holes... overcomes thermal dissipation within ps making practical applications challenging... sustaining/ amplifying hot holes flow... gold nano-mesh structure on p-type gallium nitride semiconductor substrate, exhibiting strong visible light absorption facilitating hot hole extraction at surface, amplifying flow 2X... modifying substrate's growth direction enabling hot hole activation extension beyond hot spots... solar cells, photocatalysts, hydrogen production, optical sensors"

Controlling photon direction/ energy of ultra-fast light pulses, ushering in a new era in photonic technology

https://phys.org/news/2025-03-scientists-dimension-ushering-era-photonic.html "transparent conducting oxide nano-glass (250 nm) controlling photon direction/ energy of ultra-fast light pulses moving through material, found in solar panels/ touchscreens... uses nonlinear material to fully exploit optical bandwidth, increasing computational speed several orders magnitude, enabling less energy use... enables extraordinary light transformations, including amplification, the creation of quantum states, and new forms of light control... ultra-fast: optical computing, AI, integrated quantum technologies, physics"

Fiber optic networks enhanced with liquid crystal technology

https://techxplore.com/news/2025-03-fiber-optic-networks-liquid-crystal.html#google_vignette "optical switches with liquid crystal on silicon mirrors shrink data packets down to size so the network can carry more data, signals distributed across different fiber strands enabling flexibility... overcomes limited frequency range... cross-wiring signals from 8 input to 16 output channels increasing network capacity... fewer optical switches needed... grating enables 25 GHz, or approximately 0.2 nm spectral resolution, light frequency for data stream narrower in band by factor of 4, so data packets proportionally smaller"

Powerful, flexible, and compact ultra-broadband photonic-chip-based traveling-wave parametric amplifier boosts optical signals

https://www.eurekalert.org/news-releases/1076572 "overcomes amplifiers' limited spectral bandwidth, complexity, energy use... gallium phosphide (strong optical nonlinearity, high refractive index) on silicon dioxide, >10 (up to 35) dB net gain across 140 nm bandwidth (3X wider)... optical nonlinearity instead of rare-earth elements strengthen signals... tiny spiral waveguide creates space where light waves reinforce each other, boosting weak signals/ keeping noise low... high gain with few cm long waveguide... handles input powers ranging >6 orders of magnitude"

Tree trunks' outward growth expansion mimicked to 3D print polymer parts quickly/ efficiently without molds or expensive equipment

https://techxplore.com/news/2025-03-nature-3d-method-faster-bamboo.html "Frontal ring-opening metathesis polymerization: pour amber-colored dicyclopentadiene liquid resin into open glass container submerged in ice water, heat resin center point to 70°C... heat radiates outward at 1 mm/s, >100X faster than home 3D printers, 60X faster than fastest-growing bamboo, hardening everything touched into growing sphere, self-sustaining... uses minimal energy... computational tool predicts rod's upward motion achieving target shape... wind turbine blades... limitations: curved objects, perfect cube" Related: Composites Use In Wind/Energy Markets https://www.compositesworld.com/topics/wind-energy

Bismuth-based 2D transistor operates 40 percent faster than current 3-nm silicon chips, while consuming 10 percent less energy

https://www.scmp.com/news/china/science/article/3301771/changing-lanes-china-heralds-fastest-ever-chip-technology-without-silicon "Chinese scientists develop world's fastest, most efficient transistor, surpassing those by Intel, TSMC, Samsung and the Belgian Interuniversity Microelectronics Centre, when placed under the same operating conditions... circumvents silicon-based technology entirely"

Scalable, uniform, precise nanostructure preparation directly from block polymers reduces processing time from weeks to 3 minutes

https://www.eurekalert.org/news-releases/1076573 "supersaturates polymer solutions in flow system, facilitating rapid uniform seed micelle formation, integrating seed preparation/ living crystallization-driven self-assembly... enhances efficiency, ensures uniformity/ reproducibility... flash-freezing achieves rapid/ uniform seed formation... catalysis, biomedical engineering, energy transfer, targeted drug delivery, solar cells/ other renewables"

Boosting the response speed of quantum LEDs (QLEDs) via an excitation memory effect

  https://phys.org/news/2025-03-boosting-response-quantum-memory-effect.html "more energy-efficient/ stable... electroluminescent response speed of QLEDs are influenced by remnants of electrical pulses applied to them in past, linked to deep-level hole trap energy states inhabiting device's amorphous polymer semiconductors... specialized microstructures... when driven at higher pulse frequencies, devices respond faster, enabling operation at modulation frequencies >100 MHz/ data-transmission rates up to 120 Mbps, useful for high-speed optical communication..."

TI introduces the world's smallest microcontroller, for compact applications such as medical wearables and personal electronics

https://www.ti.com/about-ti/newsroom/news-releases/2025/2025-03-11-ti-introduces-the-world-s-smallest-mcu--enabling-innovation-in-the-tiniest-of-applications.html "38% smaller (1.38mm2, black pepper flake size), lower cost/ complexity, enhanced embedded systems' sensing/ control... adds functionality while preserving board space. ..T16KB of memory, a 12-bit analog-to-digital converter with three channels; six general-purpose input/output pins; and compatibility with standard communication interfaces... enables flexibly integrating accurate, high-speed analog components into the world's smallest MCU... earbuds, medical probes"

Olympicene molecular chains create quantum spin systems with spintronics applications

https://phys.org/news/2025-03-olympicene-molecular-chains-quantum-spintronics.html "iconic olympicene molecular artificial chains realize antiferromagnetic spin-½ Heisenberg model... highly entangled nanographene quantum spin systems... strong quantum fluctuations prevent spontaneous symmetry breaking in 1D quantum magnets, leading to quantum-disordered many-body resonating valence bond states... controls spin degrees of freedom of individual chain spin sites using scanning probe tip, unit-by-unit tuning of chain length... insulator-based AF spintronics, quantum technologies based on NGs" Related: Antiferromagnetic neuromorphic memory: New spintronic device achieves brain-like memory and processing https://phys.org/news/2025-03-antiferromagnetic-neuromorphic-memory-spintronic-device.html

Enhanced magnetic properties of iridium-doped iron-cobalt alloy for highly efficient motors and cost-effective high-density data storage

https://www.eurekalert.org/news-releases/1076863 "high magnetic field strength/ orientation... compositionally graded single-crystal Fe-Co-Ir thin films... Fe magnetic moment increased 1.44-fold and Ir 1.54-fold at 11 at% Ir concentration compared to that at 1 at% Ir concentration... Ir addition increases electron localization/ stronger spin-orbit coupling between 3d electrons of Fe, Co, 5d electrons of Ir, highlighting Ir critical role"

Optical link on silicon wafer is part of a low-energy membrane indium phosphide device which enables high-speed data transmission

https://www.eurekalert.org/news-releases/1076544 "overcomes using copper wires (inefficient power usage), short optical interconnects (little efficiency gains)... electro-absorption modulator-integrated with distributed feedback laser, integrated with membrane photodiode, coupled to 7.6-mm silicon oxide waveguide forming electrical-optical-electrical link on silicon wafer... 100-um active region membrane laser achieving low threshold current/ high differential quantum efficiency, 0.14 or 0.26 pJ/bit energy to transmit 50- and 64-Gbit/s non-return-to-zero signals, respectively"

Plasmonic modulators bridging electronic data to fiber optics at record-breaking THz bandwidths, 5 - 10X faster than previously

https://www.eurekalert.org/news-releases/1076824 "overcomes laborious process/ expensive components... directly converts signals, reducing energy consumption/ increasing measurement accuracy... same single components for any frequency from 10 MHz to 1.14 THz... also: medical imaging, spectroscopic material analysis, airport baggage scanners, radar... tiny nano- sized of various materials including gold (light/ free electron interaction within)... data transmission and measurement technology"

Laser Instantly turns material opaque to transparent, or conductor to insulator, may enable fastest processors possible

https://www.eurekalert.org/news-releases/1076812 "speeds <1 light-wave cycle... powerful laser modifies matter's refractive properties, changing on extremely short timescale extent to which light passing through slows down... powerful long pulse laser modifies optical delay in material, extremely short attosecond pulse laser slow-motion video camera... attosecond pulses: 1 is reference not interacting with material, other passes through recording attosecond delays induced, interference between them enables delay reconstruction... ultrafast communication"

QNodeOS: World's first operating system for quantum networks could revolutionize the future of the internet

https://www.eurekalert.org/news-releases/1076451 "fully programmable, easily program/ execute applications on quantum network, regardless of hardware platforms used... unlike quantum computers running single programs, quantum network applications require separate programs executing independently at different network nodes coordinating with each other... trapped ion processors work fundamentally differently than those based on color centers in diamond, yet we have shown QNodeOS can work with both of them” Related: Exo 2: A new programming language for high-performance computing, with much less code https://techxplore.com/news/2025-03-exo-language-high-code.html#google_vignette The University of Osaka and research partners launch open-source quantum computer OS https://www.eurekalert.org/news-releases/1077890

World’s first high-resolution 3D printing of microstructures with MXene, using the Meniscus' method

https://www.eurekalert.org/news-releases/1076496 "overcomes need for binders, challenges finding optimal ink viscosity... droplet gently pressed/ pulled with constant pressure, forming curved surface on outer wall without bursting... dispersing highly hydrophilic MXene in water without binder, enabling high-resolution microstructure printing even with low viscosity, creating conductive 3D microstructure... 270X higher printing resolution at 1.3 µm... batteries/ energy storage: increased surface area/ integration density... shielding: enhanced reflections/ absorption" Related: Light-based polymerization reaction refines 3D printing, achieving sub-millimeter resolution https://phys.org/news/2025-03-based-polymerization-reaction-refines-3d.html

QuamCore's world's first superconducting quantum processor integrating 1 million qubits in a single cryostat

https://thequantuminsider.com/2025/03/12/quamcore-emerges-from-stealth-with-9-million-in-seed-funding-to-build-worlds-first-scalable-1-million-qubit-quantum-computer/ "path toward fault-tolerant, overcoming having to place control electronics outside cryostat to manage heat of delicate quantum processors near absolute zero, in football-field-sized facility to scale... reduces cabling >1,000X, to compact box... digital control, superconducting, processor architecture redesigned from ground up... breakthrough power efficiency, built-in error correction" Related: Device enables direct communication among multiple quantum processors https://www.eurekalert.org/news-releases/1077500 Wireless terahertz cryogenic interconnect minimizes heat-to-information transfer in quantum processors https://phys.org/news/2025-03-wireless-terahertz-cryogenic-interconnect-minimizes.html

Triboelectric nanogenerator generates electricity with tiny beads

https://www.eurekalert.org/news-releases/1076519 "surface made up of closely packed small beads comes into contact with surface containing same, smaller beads generally gain positive charge, larger negative... most significant effect with melamine-formaldehyde beads (low elasticity)... cost-effective... dry fabrication more sustainable, no solvents... wearables, small devices not needing charging... future: better efficiency/ reliability enabling large-scale applications. materials/ structures research continues to reveal new opportunities for energy generation and use"

Kilowatt-scale elastocaloric solid-state cooling device reshapes air conditioning with its zero emissions and high energy efficiency

https://www.eurekalert.org/news-releases/1076554 "stabilizes indoor temperatures at 21-22°C in 15 minutes... shape memory alloy elastocaloric effect maximum cooling power 260W, not meeting KW-scale requirement due to difficulty balancing specific refrigerant cooling power with the total active mass; and insufficient heat transfer efficiency during high-frequency operation... overcome using shape memory alloy in series/ fluid in parallel multi-cell, serially connecting 10 elastocaloric cooling units along force application direction, improving heat exchange" Related: Hannover Messe: Smart materials offer sustainable cooling and heating solutions for homes, cars and industry https://www.eurekalert.org/news-releases/1077186

High-performance programmable photonic chip in a thin-film lithium niobate platform could transform radar and communication

https://techxplore.com/news/2025-03-high-programmable-photonic-chip-radar.html "scalable, smaller, faster, more efficient, seamless integration of electro-optic modulators, signal processors... flexible chip processes radio/ light signals... anti-jammer rejects strong interference while preserving weak information-carrying signals, not limited by spectral resolution( ability to separate signals very close together in frequency) so effective against jamming signals with frequencies close to communication signal. This capability is crucial for radar and 6G networks, where traditional filters struggle with dense interference"

Microwave synthesis produces MXene 25 times faster than traditional methods while using 75% less energy

https://phys.org/news/2025-03-microwave-synthesis-mxene-faster-traditional.html "MXene protects from harmful radiation... overcomes multi-step up to 40 hour fabrication, using 90 minute 1-step microwave synthesis, uses 75% less energy... customize MXene's composition changing radiation type protects against... tested their material across the X-band—radio frequencies ranging from 8.0–12.0 GHZ—but to protect against electronic materials in outer space, more testing against cosmic radiation is needed"

Single-domain ferroelectric thin films made by precise control of interfacial atomic layers/ strain gradients elevating growth temperature

https://phys.org/news/2025-03-domain-ferroelectric-thin-simple-temperature.html "cvercomes complex fabrication... BaTiO3 ferroelectric films deposited onto La0.67Sr0.33MnO3 metallic layers using >800℃ pulsed laser deposition resulting in single-domain configuration.,, Sr ions diffused towards interface, creating positively charged surface uniformly aligning polarizations across film... large-scale single-domain film production beyond 5 × 5 mm, possibly through industrial processes like spin coating... enhance neuromorphic computing synapse performance, optoelectronics, catalysis"

Compact planar optical device significantly enhances dark-field microscopy capabilities: super-resolution beyond diffraction limit

https://phys.org/news/2025-03-compact-optical-device-super-resolution.html "overcomes complex, bulky setups precisely aligned... planar photonic device integrates scattering layer, 1D photonic crystal, metallic film generating dark-field speckle patterns acting momentum-space filter to produce hollow speckle pattern cones providing illumination... easily integrated into conventional microscopes... high-contrast imaging with 1.55X improvement in spatial resolution... resolved adjacent beads with beyond diffraction limit 340 nm center-to-center distance... supports optical surface imaging"

Nanotube compression transforms compounds' underlying chemistry and physics creating a new one-dimensional material

https://phys.org/news/2025-03-power-confinement-tiny-nanotubes-materials.html "large cluster-based inorganic Cs2Mo6Br14 nanoconfined in carbon nanotubes series, smallest measuring 10Å... breaking down (elimination) creating a new, smaller polymerized inorganic [Mo2Br6]x with 1D Ising-like structure... statistical physics, forming atomic level information storage ferromagnetic arrays... magnetic, arranged themselves into linear polymer (linked) structure, pointing magnetically up or down copying neighboring orientation... quantum computing, molecular electronics" Related: Scientists achieve universal technique—called van der Waals squeezing—for atomic manufacturing of 2D metals https://phys.org/news/2025-03-scientists-universal-technique-van-der.html

IsoMat: A 5,000x more efficient energy saving temperature control, also potentially harvests enough energy from air to power entire home

https://www.theengineer.co.uk/content/news/heat-transfer-tech-offers-5-000x-more-efficiency/ "Flint Isothermal Energy Management System: flat aluminium sheet, sealed channels internal network... liquid within channels rapidly cycle evaporation/ condensation when exposed to temperature differentials, causing near-instantaneous heat transfer across surface... 5,000X more efficiently than copper, aluminium... roof cladding heat/ cool building... refrigeration shelves 8 - 30% less energy, improved temperature consistency.. EV battery at  25°C +/- 1°C... construction, refrigeration, and EV battery cooling" Comment by email from Stephen Lester, director, Flint Isothermal: We use the panel as a building cladding with PV bonded to the surface, which keeps the weather out. Heat from the PV panels is used for domestic hot water or in an absorption chiller reducing cooling load in summer. The PV panels generate electricity. The IsoMat was 2018 winner of the Game-Changer Award, for the t...

Shift to hydrogen plasma technology enables emission-free ferromanganesean, an essential alloy in steel production

https://www.sintef.no/en/latest-news/2025/can-hydrogen-plasma-enable-emission-free-steel-production/ "very high temperature transforms hydrogen into plasma, which is a significantly more reactive form... plasma is much more effective at removing oxygen from ore, producing desired metal... same carbon from coal process, but instead of CO₂, only water vapor produced... examining how the technology can be scaled up, and the energy resources and set-up required" Related: Hydrogen plasma replaces coal for steel https://www.metaltechnews.com/story/2025/03/19/tech-bytes/hydrogen-plasma-replaces-coal-for-steel/2193.html

Micro-macro regulating heterogeneous interface engineering boosts electromagnetic wave absorption

https://www.eurekalert.org/news-releases/1075631 "3D N-doped carbon fiber/MXene/TiO2 nano-aerogel: thin, lightweight, robust, thermal stability, wide absorption bandwidth, strong reflection loss, high-efficiency microwave absorption, electromagnetic pollution reduction... heterogeneous structure rational design optimizes interfacial area/ interfacial effects, concurrent design of multiple components/ structures achieves efficient interfacial control... macro: green/ low-cost biomass cotton skeleton, micro: nitrogen atom doping enhancing polarization loss... radar stealth"

Enhancing reconfigurable intelligent surface design efficiency and versatility

https://www.eurekalert.org/news-releases/1075472 "digitally coded for real-time EM wave manipulation in 5G/ 6G... overcomes high data acquisition/ training costs, massive pixel combinations/ blocked excitation current flow... overcome combining topological representation method/ separate design architecture... non-uniform rational B-spline represents continuous patterns, mapping 100D continuous patterns to 5D control points, reducing the pattern solution space ensuring smooth excitation current flow, enhancing surface patter resonance... sensing, wireless "

Developing the inherent functionality of highly pure porous organic polymers

https://www.tohoku.ac.jp/en/press/developing_the_inherent_functionality_of_highly_pure_porous_organic_polymers.html "soak up harmful pollutants, boast high thermal/ chemical stability... overcomes metal impurities decreasing porosity, using iodine as oxidant minimizing residual impurities, then washing out iodine and remaining impurities with ethanol after synthesis... results in pure polytriphenylamine derivatives with high specific surface area... carbon capture, energy storage, fuel cells, proton conductivity/ gas adsorption accompanied by gate-opening phenomenon"

Light emitted from 2D materials modulated by embedded nanodot inside them for sharper displays and ultra-fast quantum computing

https://phys.org/news/2025-03-nanodot-fine-tune-sharper-displays.html "cathodoluminescence: aim electron beam at 2D molybdenum diselenide embedded in 2D tungsten diselenide, making it emit high resolution light... larger dots give off 1 type of glow... <10 nm wide dots trap energy/ emit light with higher frequency (quantum confinement) confining excitons at interface of the 2 materials... controlling nanodot size via controlling excitons changes emitted light's color/ frequency more effectively... faster/ more secure quantum systems, energy-saving high resolution screens"

A new on-chip microcomb to synchronize signals in optoelectronics

https://techxplore.com/news/2025-03-chip-microcomb-synchronize-optoelectronics.html "overcomes difficulties synchronizing frequencies of optically generated signals with those of traditional electronic clocks... synthesizes single-frequency and wideband signals covering broad frequency band providing reference clocks... does not require coherent digital signal processing... prototype optoelectronic wireless sensing/ communications device... enables high repetition rates, consumes less power"

Bouligand structure cellulose photonic hydrogels enable impact-resistant bioplastics, ceramic armor, and biomimetic alloy composites

https://phys.org/news/2025-03-highly-robust-reconfigurable-mechanochromic-cellulose.html "highly robust, dynamically responsive/ reconfigurable, mechanochromic, multi-level active interfaces... based on cellulose nanocrystal self-assembly properties... precise network matrix alignment control through nanofiber sliding/ hydrogen bond reconstruction, driven by water-activated hydrogen bonding interactions... compared with original hydrogel: 5X tougher, >9.5X more stretchable... dynamic color-changing abilities, switching reversibly between red/ blue maintaining stable electromechanical sensitivity... smart photonics"

Graphene's quantum spin injection promises energy-efficient spintronics

https://phys.org/news/2025-02-graphene-quantum-energy-efficient-spintronics.html "fully encapsulating monolayer graphene in insulating 2D hexagonal boron nitride, protecting its high quality... 2D stack exposing only edges of graphene, laying magnetic nanowire electrodes over stack, forms 1D contacts injectioning at 20°K, revealing electron transport across interface as quantum... avoids need for physical constriction within graphene channel, overcoming fabrication challenges... magnetic nature of the nanoscale contacts enables quantized spin injection... low-power ballistic spintronics"

Highly efficient and stable blue quantum dot LEDs for brighter displays without using toxic heavy metals

https://phys.org/news/2025-03-quantum-dot-discovery-brighter-eco.html "matches or outperforms cadmium-based... 24.7% efficient pure/ vibrant blue light lasting nearly 30,000 hours... atomic level fine-tuning quantum dot structure, reducing light emission interfering defects, uniformity improving brightness/ stability, high color purity... televisions, smartphones, VR headsets, energy-efficient lighting"

Adding small amount of pyrrodiazole to formamidinium iodide perovskite thin-films for 20.3% efficient solar cells

https://techxplore.com/news/2025-03-perovskite-solar-cells-efficiency-heights.html "overcomes degradation/ efficiency issues... improves its stability during crystallization, leading to stronger bonds between PbI2 and hydrogen... also reduced colloidal aggregation, reducing overall defects, improving uniformity/ reducing degradation... slot-die coating in open air conditions enabling large-scale production, lower costs... long-term stability, with a 94% efficiency rating after exposure to direct light for 1,000 hours, at 65% humidity" Related: Scientists introduce c-MOFs in emerging SrZrS₃ chalcogenide perovskites for efficient solar cells https://techxplore.com/news/2025-03-scientists-mofs-emerging-srzrs-chalcogenide.html Perovskite solar not needing ultrapure silicon and lots of energy/ factory space, but has same performance https://www.ajc.com/news/business/this-georgia-tech-lab-is-developing-the-next-generation-of-solar-cells/IIJVOHNHRFBQJLR6GAVQZ2H2QA/ SrZrSe₃ chalcogen...

Scalable graphene oxide nanosheet production from carbon fibers derived from polyacrylonitrile, a green alternative to mining graphite

https://www.eurekalert.org/news-releases/1075626 "heat removes protective polymer coatings from carbon fibers... exfoliate carbon fibers using electrochemical oxidation in water/ 5% nitric acid as conductor, nanoscale graphene oxide layers peel off, with uniform 0.9 nm thick circular/ elliptical nanosheets, 200 mg/ gram carbon fiber... yields 1-atom-thick sheets of graphene oxide with characteristics comparable to that sourced from mined graphite... no harsh chemicals, variations in graphite purity... EV batteries, composites, water purification. electronic devices" Related: Catalytic Graphitization Breakthrough Could Revolutionize Synthetic Graphite Production https://innovation.tamus.edu/catalytic-graphitization-breakthrough-could-revolutionize-synthetic-graphite-production/

Commercially launched: World's first biological computer fuses living human brain cells with silicon hardware forming fluid neural networks

https://newatlas.com/brain/cortical-bioengineered-intelligence/ "Cortical Labs' CL1... learns quickly/ flexibly... assembling neurons in new way... neurons seek connections producing energy-efficient, predictable outcomes, adapting producing random, chaotic electrical signal... simpler, more stable and for longer, much more able to actively balance charge... lab-grown neurons placed on planar electrode array, 59 electrodes form basis of network, placed in rectangular life-support unit connected to software-based system... $35-85 thousand, 850-1,000 W... medical science, technology" Related: Humans as hardware: Computing with biological tissue https://techxplore.com/news/2025-03-humans-hardware-biological-tissue.html

Chiral liquid crystals improve organic solar cell efficiency and stability by 50 times

https://chbe.illinois.edu/news/stories/liquid-crystal-structures-key-organic-solar-cell-performance-study-finds "processing conditions manipulated printing films force molecules to adopt different structures, ink evaporates depending on printing speed locking assembly into different stages... slow forces polymers assemble into liquid crystals before film forms, for better stability/ efficiency distinguished from cells random aggregation pathways... further manipulation for either achiral, which is an improvement, or chiral, which is best" Related: Novel synthesis method boosts efficiency of organic solar cells https://techxplore.com/news/2025-03-synthesis-method-boosts-efficiency-solar.html Green solvent innovation: High-speed doctor-blading boosts organic solar cell efficiency https://techxplore.com/news/2025-03-green-solvent-high-doctor-blading.html

High-speed energy-efficient electro-optic switch with enhanced data capacity, improved signal routing and switching

https://phys.org/news/2025-03-high-energy-efficient-electro-optic.html "nanosecond-scale optical switching: low crosstalk <-45 dB, broad 3-dB bandwidth >100 nm, <3 ns latency... scalable, chip-friendly fabrication of 2×2 cascaded electro-optic switch by micro-transfer printing pre-etched thin-film lithium niobate (superior modulation capabilities) onto silicon nitride (exceptional passive properties)... 1.3 dB insertion loss at 1550-nm wavelength... future: large-area coupon-based massive micro-transfer printing to integrate multiple elements in a single process"

Hypotaxy technique for growth of wafer-scale single-crystal 2D semiconductors, overcoming the limitations of existing processes

https://www.eurekalert.org/news-releases/1075619 "energy saving, better performance transition metal dichalcogenide semiconductors now scalable... completely new growth method leveraging 2D graphene or hexagonal boron nitride as templates, guiding dichalcogenide crystal alignment enabling synthesis of perfectly single-crystalline films on any substrate at low temperature (400°C) compatible with existing semiconductor manufacturing... template naturally dissappeaers without requiring post-removal process... high charge carrier mobility, excellent uniformity"

Nanocatalyst based on nickel recovered from spent Ni-MH batteries and aluminium foil residues converts CO2 into valuable methane

https://www.eurekalert.org/news-releases/1075681 "could provide around 16% of nickel needed by 2030, but even greater impact can be achieved by upcycling nickel together with upcycling alumina from used aluminium foil into high-performance nanocatalyst in an eco-friendly way... nanocatalyst consists of 92-96% aluminium oxide and 4-8% nickel, optimal for converting CO2 together with hydrogen into methane at atmospheric pressure and an easily achievable temperature of 250°C" Related: A new method to recycle fluoride from long-lived PFAS chemicals https://www.eurekalert.org/news-releases/1077959

Defects in surface freezes 2D sheet's motion, alter ripple effects, influencing strength, conductivity, chemical activity and fluid interactions

https://www.eurekalert.org/news-releases/1075504 "used machine learning to represent 2D sheets of graphene/ other materials, with/ without defects... sheet defects affect how ripples move: above certain concentration, defects freeze membrane/ flexibility.lost .. control the physical behavior of these materials by using defects—something traditionally considered undesirable—as a design tool... energy storage, catalysis nanofluidics (water filtration), ultra-thin flexible screens/ fast electronics"

Vortion: Nanoscale, energy-efficient, room temperature, magneto-ionic, vortice reconfigurable neural networks as dynamic synapses

https://www.eurekalert.org/news-releases/1075539 ", memory magnetic layer thickness controls magnetisation, coercivity, remanence, anisotropy with voltage, not currents... adding/ removing ions through changes in applied voltage polarity manipulates magnetics... overcomes magnetic vortex states in already prepared materials requiring large energy amounts, on-demand voltage-regulated (by extracting nitrogen ions) nanodot control creating new/ varying magnetic states... analogue computing, data storage/ security, medical theragnostics, spin computing, magnonics"

Zuchongzhi-3 superconducting quantum processor prototype operates 10¹⁵ times faster than fastest supercomputer

https://phys.org/news/2025-03-superconducting-quantum-processor-prototype-faster.html "random quantum circuit sampler, 105 qubits, 182 couplers, 1,000,000X faster,  72 μs coherence time, 99.90% parallel single-qubit gate fidelity, 99.62% parallel 2-qubit gate fidelity, 99.13% parallel readout fidelity... 15 orders magnitude better computational speed... advancing  quantum: error correction (distance-7 surface code, future: increase this distance to 9 and 11, paving the way for massive integration and manipulation of quantum bits), entanglement, simulation, chemistry"

Double network hydrogel polymers with rapid automated self-strengthening upon deformation

https://www.eurekalert.org/news-releases/1074812 "overcomes sluggish reinforcement during typical deformation rates, using weak chemical bond cleavage for activation, modifying DN hydrogel by embedding molecular components containing weak azo bonds (–N=N–) into primary polymer network, subsequently soaking up large monomer/ crosslinker concentrations... dmechano-radicals rapidly react with the absorbed monomers/ crosslinkers, forming, 100X faster, new stronger self-strengthening primary network... rubber, elastomers, biomaterials, contact lenses, soft robots"

Multiplexing entanglement in a two-mode quantum network, each mode containing multiple qubits, boosting communication rates

https://www.eurekalert.org/news-releases/1074945 "preparing qubits/ transmitting photons simultaneously, entanglement rate scaled proportionally to number of qubits... embedding ytterbium atoms inside yttrium orthovanadate crystals, laser exciting each atom to emit photon that remains entangled/ coupled to optical cavities... quantum feed-forward control: generates atoms entanglement  even when optical transitions differ, taking received information from the photon arrival time and applying  a quantum circuit: a series of logic gates that are tailored to the two qubits."

Google’s Taara chip delivers high-speed internet from light bridge (traffic light sized) to light bridge, with light instead of radio waves

https://www.wired.com/story/plaintext-google-taara-chip-internet-by-light/ "10 to 100X more bandwidth than Starlink, at fraction of cost... boxes see each other at 20 GBps, equivalent of fiber-optic cable, compensate for potential line-of-sight interruptions, have complicated gimbals, mirrors, lenses to zero in on the right spot to establish/ hold connection... now in commercial operation... future: shrink light bridge to fingernail size, replacing mechanical gimbals/ costly mirrors with single laser solid-state transmitter pairing with multiple receptors... light might be key element in 7G"

Pusan National University develops one-step 3D microelectrode arrays for neural interfaces

https://www.eurekalert.org/news-releases/1074980 "recording brain activity/ stimulating neural tissues, they are flat, not conforming to neural structures' natural curves, require multiple fabrication steps... overcome developing μETF inspired plastic thermoforming 3D structures for neural electrodes... liquid crystal polymer substrate due to mechanical strength, biocompatibility, long-term stability... prototype reduced stimulation thresholds 1.7X, improved spatial resolution 2.2X... brain, spinal cord, cochlea, peripheral nerve neural interfaces, wearable electronics"

Graphyne, which unlike graphene contains double and triple bonds, has highly compelling electronic, mechanical and optical properties

https://phys.org/news/2025-02-graphyne-carbon-potential-electronics.html "predicted to be semiconductor with band gap, ultra-high charge carrier mobility far surpassing that of silicon, ultimate strength comparable to graphene... completely eliminates all 2-coordinate acetylenic carbons from graphyne, yet preserves layered structure... modified band gap... enables future techniques for fabricating all-carbon electronic chips with performance unattainable by the current silicon technology... carbon electronics, energy harvesting/ storage, gas separations, catalysis"

Eco friendly, inexpensive, hybrid supercapacitor stores high-power energy using the high carbon content of insignis pines sawdust

https://www.eurekalert.org/news-releases/1075335 "hybrid lithium ion device has advantages of both high-power supercapacitor withstanding many charge-discharge cycles/ battery storage... 1 electrodes was made of hard carbon and the other was made of activated carbon. What is more, great importance was attached in the research to the use of cost-efficient, sustainable processes for producing the electrodes... process to produce the electrodes was energy-efficient: synthesis temperatures did not exceed 700°C, and economic additives were used"

Nanostructure-aligned transparent stretchable substrates without image distortion could revolutionize next-generation displays

https://www.eurekalert.org/news-releases/1075146 "scalable... overcomes distorted screens due to Poisson's ratio phenomenon, and poor fit, light scattering... block copolymers of both stiff and soft polystyrene arranged in 1 direction maximizing elasticity difference  between parallel/ perpendicular directions to reduce shrinkage with Poisson's ratio 0.07 or less... shear-rolling process aligns nanostructures evenly, speed differences between rollers/ stages apply uniform high temperature shear force... substrate vertically stretchable >50%... wearables, solar cells"

High color purity quantum dots enable QLEDs with record external quantum efficiency/ exceptional luminescence and operational stability

https://www.eurekalert.org/news-releases/1075363 "facile high-temperature successive ion layer adsorption and reaction grows high-quality, large-particle, alloyed red quantum dots... alleviates compressive strain, suppresses heavy-hole energy band splitting, weakens exciton-phonon coupling, enhancing luminescence color purity... Zn₁₋ₓCdₓSe/ZnSe/ZnS shells confine carriers within luminescent core, boosting photoluminescence quantum yield, and surface defects passivized facilitating hole injection, achieving more balanced carrier recombination in the QLEDs"

First continuous-variable integrated photonic on-chip quantum multipartite entanglement achieved with optical microcomb

https://phys.org/news/2025-02-chip-multipartite-entanglement-optical-microcomb.html "scalable... optical microcomb: polychromatic pump/ polychromatic homodyne detection produce multimode squeezed-vacuum optical frequency combs below parametric oscillation threshold, demonstrating the chip-scale deterministic generation... multipartite entanglement reconfiguration: tailoring local oscillator beams to generate various cluster-type 4-qumode linear-, box- and star-, 6-qumode linear-type, and continuous-variable cluster-style-type entanglement structure... quantum: computation, networking, metrology, sensing"

High-speed super-resolution 3D direct laser writing for fabricating precision micro-optical devices and metamaterials

https://www.eurekalert.org/news-releases/1075202 "laser written lines spaced 100 nm apart on glass substrate... focused laser selectively solidify/ polymerize... dual-beam with special photoresist... 100 µm/s printing speeds, but at 1000 μm/s, a 120-nm lateral resolution still achieved... printing optical waveguide devices for VR/ AR displays with precise, high-resolution structuring... microlenses, photonic crystals, micro-optical devices, metamaterials"