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Molecular 'velcro': Covalent bonds between 2D materials unlock enhanced optoelectronic capabilities

Nanophysics news

Molecular 'velcro': Covalent bonds between 2D materials unlock enhanced optoelectronic capabilities

Researchers have chemically linked 2D materials using a molecular "velcro," resulting in a device with improved optoelectronic properties. The device, made of palladium nanosheets covalently bonded with MoS2, shows an enhanced ...

Nanophysics

15 hours ago

Versatile nanothermometer enables real-time material structure and temperature observation

Technological advancements in the simultaneous observation of ultrafine structures and temperature changes in materials are paving the way for the development of advanced materials. This innovation is expected to facilitate ...

Nanophysics

18 hours ago

Covalent organic frameworks demonstrate considerable potential for efficient energy transport

An interdisciplinary research team from LMU, the Technical University of Munich (TUM), and the University of Oxford has employed novel spectroscopic techniques to investigate the diffusion of excited states in covalent organic ...

Nanophysics

Jan 10, 2025

Single-atom metal layer reveals unexpected spin-polarized current control with light

Researchers at the University of Tokyo have demonstrated that the direction of the spin-polarized current can be restricted to only one direction in a single-atom layer of a thallium-lead alloy when irradiated at room temperature. ...

Nanophysics

Jan 10, 2025

Scientists develop high-impact materials for optoelectronic technologies

Every day, people are reaping the benefits of work by scientists and engineers to make more effective X-ray machines, computers, cell phones and televisions. Florida State University researchers are pushing the boundaries ...

Nanophysics

Jan 10, 2025

Hidden transport pathways in graphene confirmed, paving the way for next-generation device design

Electron transport in bilayer graphene exhibits a pronounced dependence on edge states and a nonlocal transport mechanism, according to a study led by Professor Gil-Ho Lee and Ph.D. candidate Hyeon-Woo Jeong of POSTECH's ...

Nanophysics

Jan 10, 2025

Janus graphene nanoribbons poised to advance quantum technologies

Researchers from the National University of Singapore (NUS) have recently achieved a significant breakthrough in the development of next-generation carbon-based quantum materials, opening new horizons for advancements in ...

Nanophysics

Jan 9, 2025

Domain wall fluctuations in 2D materials reveal a new mechanism of superconductivity

Two-dimensional (2D) van der Waals are made of atomically thin layers, held together by weak van der Waals forces. These materials have been the focus of numerous studies, as their unique properties make them ideal for studying ...

Nanophysics

feature

Jan 9, 2025

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Decoding 2D material growth: White graphene insights open doors to cleaner energy and more efficient electronics

A breakthrough in decoding the growth process of hexagonal boron nitride (hBN), a 2D material, and its nanostructures on metal substrates could pave the way for more efficient electronics, cleaner energy solutions and greener ...

Nanophysics

Jan 8, 2025

Researchers image magnetic skyrmions at room temperature for the first time

An international research team, working with cutting-edge technology at the University of Nebraska–Lincoln, has made a discovery that may dramatically expand the materials used in next-generation, energy-efficient memory ...

Nanophysics

Jan 8, 2025

Combining graphene and nanodiamonds for better microplasma devices

Microplasma devices are incredibly versatile tools for generating and sustaining plasmas on micro- and millimeter scales. The latest advances in nanotechnology now promise to expand their range of applications even further ...

Nanophysics

Jan 7, 2025

Brain-inspired nanotech offers new path for smarter electronics

Imagine a future where your phone, computer or even a tiny wearable device can think and learn like the human brain—processing information faster, smarter and using less energy.

Nanophysics

Jan 7, 2025

Quantum dots enhance spin chemistry in radical pairs

Colloidal quantum dots (QDs) constitute a platform to explore various quantum effects. Their size-dependent colors are essentially a naked-eye, ambient-condition visualization of the quantum confinement effect.

Nanophysics

Jan 7, 2025

Ultrathin conductor surpasses copper for more energy-efficient nanoelectronics

As computer chips continue to get smaller and more complex, the ultrathin metallic wires that carry electrical signals within these chips have become a weak link. Standard metal wires get worse at conducting electricity as ...

Nanophysics

Jan 7, 2025

Laser technique uncovers how titanium's electron behavior influences its physical properties

A research team at Yokohama National University has developed a way to study how the orientation and behavior of electrons in titanium influence its physical characteristics. Their findings, published in Communications Physics ...

Nanophysics

Jan 6, 2025

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New quantum sensing technology reveals sub-atomic signals

Since the 1950s, scientists have used radio waves to uncover the molecular "fingerprints" of unknown materials, aiding in tasks as varied as scanning the human body with MRI machines and detecting explosives at airports.

Nanophysics

Jan 6, 2025

Discovery of bistable nanocrystals promises faster, more energy-efficient optical computing

Scientists, including an Oregon State University chemistry researcher, have taken a key step toward faster, more energy-efficient artificial intelligence, and data processing in general, with the discovery of luminescent ...

Nanophysics

Jan 3, 2025

103

New 'all-optical' nanoscale sensors of force access previously unreachable environments

Mechanical force is an essential feature for many physical and biological processes. Remote measurement of mechanical signals with high sensitivity and spatial resolution is needed for a wide range of applications, from robotics ...

Nanophysics

Jan 1, 2025

Engineers develop first deep-UV microLED display chips for maskless photolithography

In a breakthrough set to revolutionize the semiconductor industry, the School of Engineering of the Hong Kong University of Science and Technology (HKUST) has developed the world's first-of-its-kind deep-ultraviolet (UVC) ...

Nanophysics

Dec 30, 2024

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2D materials with 'twist' show unexpected electronic behavior that defy theoretical predictions

In the search for new materials that can enable more efficient electronics, scientists are exploring so-called 2D materials. These are sheets of just one atom thick, that may have all kinds of interesting electronic properties. ...

Nanophysics

Dec 30, 2024

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