Bioengineers and chemists design fluorescent 3D-printed structures with potential medical applications
In a process as simple as stirring eggs and flour into pancakes, University of Oregon researchers have mixed fluorescent ring-shaped molecules into a novel 3D printing process. The result: intricate glowing structures that support the development of.....»»
This mad phone does something unexpected when it gets cold
Realme certainly knows how to make an impression with the design of its phones. From to , the brand always seems keen to embrace unusual trends, and for the Realme 14Pro series, it has created something we’ve not seen before — a rear panel that c.....»»
A user manual for yeast"s genetic switches: Researchers provide three design principles
When introducing genes into yeast to make it produce drugs and other useful substances, it is also necessary to reliably switch the production on or off. A Kobe University team found three gene regulation design principles that provide a flexible gui.....»»
Miniaturized all-fiber photoacoustic spectrometer for intravascular gas detection rivals lab-based systems
Miniaturized spectroscopy systems that can detect trace concentrations at the parts-per-billion (ppb) level are of the utmost importance in applications ranging from environmental monitoring and industrial process control to biomedical diagnostics. H.....»»
Advance in photochemical water oxidation enhances sustainable energy potential
With the global shift towards sustainable and renewable energy, the urgency to develop efficient methods for producing clean energy has never been greater. Imagine a future where the energy that powers our homes and cities comes from one of the plane.....»»
Supreme Court to decide if TikTok should be banned or sold
TikTok won’t get injunction but will get SCOTUS review ahead of potential ban. On Wednesday, the Supreme Court confirmed it would review whether a federal law that could ban or.....»»
Fluorination strategy unlocks graphene"s potential for optoelectronic and energy applications
Researchers from Tohoku University and collaborators have developed a weak fluorination strategy to address the zero-bandgap limitation of graphene. Details of the research were published in the journal Applied Physics Letters......»»
Nano drug delivery system eliminates need for complicated carriers
A team of University of Melbourne researchers from the Caruso Nanoengineering Group has created an innovative drug delivery system with outstanding potential to improve drug development......»»
Nanopore-based "artificial tongue" can determine chemical makeup of alcoholic drinks
A team of chemists and biomedicine specialists at Nanjing University, in China, developed an "artificial tongue" based on biological nanopore technology that can be used to determine the chemical makeup of alcoholic drinks. In their paper published i.....»»
Ancient clay remedy may have potential to boost modern gut health
A team of scientists has discovered that an ancient medicinal clay known as Lemnian earth (LE) could inspire new understanding of how to support present-day gut health......»»
Physicists magnetize a material with light: Terahertz technique could improve memory chip design
MIT physicists have created a new and long-lasting magnetic state in a material, using only light......»»
Appdome protects applications running on mobile-enabled platforms
Appdome announced that the Appdome Mobile Defense Platform now protects applications running on mobile-enabled platforms like Apple macOS, Apple visionOS, Meta Quest, HarmonyOS Next, Android Auto, Apple CarPlay, Android TV, Apple TV, and Google Play.....»»
Low glycemic index rice seen as promising solution to mitigate Asia"s diabetes crisis
A new paper recently published by scientists explores the potential of low glycemic index (Low GI) rice to combat the growing diabetes epidemic, particularly in Asia......»»
The physics of random stacking: Perspectives on stability and chaos
Pile up blocks until the tower collapses. But why does the tower always end up collapsing? Is it possible that it can be built ad infinitum? A study published in the International Journal of Solids and Structures explores the fascinating and complex.....»»
Researchers achieve near-unity quantum efficiency in 2D photon emitters
Leveraging the principles of quantum mechanics, quantum computers can perform calculations at lightning-fast speeds, enabling them to solve complex problems faster than conventional computers. In quantum technology applications such as quantum comput.....»»
Oxygen and chlorine evolution without noble metals: Electrode potential transforms MXene surfaces
MXenes are a class of two-dimensional materials that were discovered in 2011. Theoretical studies previously predicted that they would not be catalytically active in anodic processes. Researchers led by Prof. Dr. Kai S. Exner, head of the Department.....»»
NASA sees progress on Starlab commercial space station development
A NASA-funded commercial space station, Starlab, recently completed four key developmental milestones, marking substantial progress in the station's design and operational readiness......»»
Boltz-1: Fully open-source model rivals AlphaFold3 for predicting biomolecular structures
MIT scientists have released a powerful, open-source AI model called Boltz-1 that could significantly accelerate biomedical research and drug development. The paper is available on the bioRxiv preprint server......»»
Waal river draws more water, signaling potential Rhine system shift
Historical observations and model computations point to the Rhine system having crossed a tipping point. Since extreme peak flows in the 1990s, the Waal has gradually attracted more water at the Pannerdense Kop bifurcation. This is shown in research.....»»
Physics and emote design: Quantifying clarity in digital images
When analyzing artworks, understanding the visual clarity of compositions is crucial. Inspired by digital artists, Okinawa Institute of Science and Technology (OIST) researchers from the Mechanics and Materials Unit have created a metric to quantify.....»»
Excited state dynamics unlock potential for organics LEDs and bioimaging
Excited state dynamics are essential for understanding fluorescence properties in molecules, impacting their application in technologies. Research at Shinshu University explores how molecular structure and geometry influence light emission in aggrega.....»»