Gold film enhances quantum sensing
Quantum sensing outpaces modern sensing processes by applying quantum mechanics to design and engineering.
Quantum sensing outpaces modern sensing processes by applying quantum mechanics to design and engineering.
研究人员found a way to enhance radiation therapy using novel iodine nanoparticles.
Single-crystal flake devices are so thin and defect-free, they might outperform existing components in quantum computers.
A 3D-printable polymer nanocomposite ink has incredible properties — and many applications in medicine, aerospace, and electronics.
Researchers mimic the animal kingdom’s most basic signs of intelligence in quantum material.
A new method designs nanomaterials with less than 10-nanometer precision. It could pave the way for faster, more energy-efficient electronics.
Chemists have developed two new classes of materials in the field of nanomaterials: nano spheres and diamond slivers made of silicon and germanium.
Scientists have captured the real-time electrical activity of a beating heart, using a sheet of graphene to record an optical image of the faint electric fields generated by the rhythmic firing of the heart's muscle cells.
New optical elements that could revolutionize VR/AR glasses. At its heart is a nanophotonic optical element, which the developers call a metasurface.
研究人员developed a new way of using nanomaterials to identify and enrich skeletal stem cells – a discovery which could eventually lead to new treatments for major bone fractures.
研究人员found a way to use quantum-entangled photons to encode information in a hologram.
Researchers at have revealed how high-frequency sound waves can be used to build new materials, make smart nanoparticles and even deliver drugs to the lungs for painless, needle-free vaccinations.
Scientists have cracked the conundrum of how to use inks to 3D-print advanced electronic devices with useful properties, such as an ability to convert light into electricity.
Graphene has a vast variety of practical applications in the creation of new materials. But what exactly is graphene and what makes it so special?
研究人员developed a high-power, portable version of a device called a quantum cascade laser, which can generate terahertz radiation outside of a laboratory setting.
研究人员created fundamental electronic building blocks out of tiny structures known as quantum dots and used them to assemble functional logic circuits.
研究人员developed ultrasensitive sensors that can detect microwaves with the highest theoretically possible sensitivity.
基于新医疗技术的发展on cutting-edge discoveries has accelerated during the coronavirus pandemic.
Scientists are harnessing the mind-bending potential of quantum computers to help us understand genetic diseases – even before quantum computers are a thing.
Researchers are pushing the boundaries of evolution to create bespoke, miniaturised surgical robots, uniquely matched to individual patient anatomy.
The project “BioSensing” from Fraunhofer ISC aims to overcome the limits of modern biosensors with the help of quantum technology.
By speaking the brain’s language, the material is a portal between electronics and the brain.
研究人员reported the first measurements of the ultra-low-friction behavior of a material known as magnetene.