News by Subject Chemistry & Physics

News Release 5-Mar-2021

Light in concert with force reveals how materials become harder when illuminated

A team of researchers from Nagoya University, Japan, and Technical University of Darmstadt have developed a technique for quantitatively studying the effect of light on nanoscale mechanical properties of thin wafers of semiconductors or any other crystalline material. The group has found clear evidence that propagation of dislocations - slippages of crystal planes - in semiconductors is suppressed by light. The likely cause is interaction between dislocations and electrons and holes excited by the light.

Journal: ACS Nano Letters

News Release 3-Mar-2021

Heat-free optical switch would enable optical quantum computing chips

KTH, Royal Institute of Technology
Research News Release

In a potential boost for quantum computing and communication, a European research collaboration reported a new method of controlling and manipulating single photons without generating heat. The solution makes it possible to integrate optical switches and single-photon detectors in a single chip.

Journal: Nature Communications
Funder: European Union's Horizon 2020 research and innovation program, Swedish Research Council, Knut and Alice Wallenberg Foundation, State of Upper Austria, Austrian Science Fund.

News Release 3-Mar-2021

'Target identified': teaching a machine how to identify imperfections in 2D materials

ARC Centre of Excellence in Future Low-Energy Electronics Technologies
Research News Release

Just as James Cameron's Terminator-800 was able to discriminate between "clothes, boots, and a motorcycle", machine-learning could identify different areas of interest on 2D materials. The simple, automated optical identification of fundamentally-different physical areas on these materials could significantly accelerate their application in next-generation, energy-efficient computing, optoelectronics and future smart-phones.

Journal: Machine Learning: Science and Technology
Funder: Australian Research Technology

News Release 28-Feb-2021

Pumping perovskites into a semiconductor platform

King Abdullah University of Science & Technology (KAUST)
Research News Release

Fluid injection of perovskite semiconductors creates microwires to build different optoelectronic devices on a single silicon chip.

Journal: Cell Reports Physical Science

News Release 26-Feb-2021

Quantum quirk yields giant magnetic effect, where none should exist

Rice University
Research News Release

In a twist befitting the strange nature of quantum mechanics, physicists have discovered the Hall effect -- a characteristic change in the way electricity is conducted in the presence of a magnetic field -- in a nonmagnetic quantum material to which no magnetic field was applied.

Journal: Proceedings of the National Academy of Sciences
Funder: Austrian Science Fund, European Union's Horizon 2020 Research and Innovation Program, Swiss National Science Foundation, National Science Foundation, Welch Foundation, Los Alamos National Laboratory's Center for Nonlinear Studies' Ulam Scholarship

News Release 26-Feb-2021

Engineering the boundary between 2D and 3D materials

Massachusetts Institute of Technology
Research News Release

For practical applications, two-dimensional materials such as graphene must at some point connect with the ordinary world of 3D materials. MIT researchers have come up with a way of imaging what goes on at these interfaces, down to the level of individual atoms, with the goal of better controlling these materials' electronic properties.

Journal: Nature Communications

News Release 25-Feb-2021

Scientists induce artificial 'magnetic texture' in graphene

University at Buffalo
Research News Release

Graphene is not magnetic -- a shortcoming that has stunted its usefulness in spintronics, an emerging field that could rewrite the rules of electronics, leading to more powerful semiconductors and computers. University at Buffalo researchers report an advancement to overcome this obstacle. In a study published today in Physical Review Letters, researchers describe pairing a magnet with graphene, and inducing what they call "artificial magnetic texture" in the nonmagnetic wonder material.

Journal: Physical Review Letters
Funder: US Department of Energy, National Science Foundation, nCORE, Semiconductor Research Corporation, Swedish Research Council, Japan Society for the Promotion of Science

News Release 25-Feb-2021

Molecular bridges power up printed electronics

Graphene Flagship
Research News Release

Graphene Flagship researchers boost the efficiency of conductive inks and devices connecting layered materials flakes with small molecules

Journal: Nature Nanotechnology
Funder: European Commission

News Release 24-Feb-2021

Buckyballs on DNA for harvesting light

Frontiers
Research News Release

Researchers from the Karlsruhe Institute of Technology show that DNA can serve as a scaffold for light-harvesting supramolecules, where fluorescent dyes work as electron donors and buckyballs as electron acceptors. The DNA's regular 3D structure increases the light-to-electrons conversion efficiency by reducing so-called self-quenching. Such DNA-based supramolecules could be used in future organic solar cells.

Journal: Frontiers in Chemistry

News Release 23-Feb-2021

Transformed by light: Fast photochromism discovered in an inexpensive inorganic material

Ritsumeikan University
Research News Release

Photochromic materials can reversibly change their color and optical properties when irradiated with ultraviolet or visible light. However, they are made from organic compounds that are expensive to synthesize. Fortunately, for the first time, scientists from Ritsumeikan University, Japan, have discovered fast-switching photochromism in an inexpensive inorganic material: copper-doped zinc sulfide nanocrystals. Their results pave the way for a plethora of potential applications ranging from smart adaptive windows and sunglasses to anti-counterfeiting agents.

Journal: Journal of American Chemical Society
Funder: Japan Society for the Promotion of Science (JSPS), Nippon Sheet Glass Foundation for Materials Science and Engineering, Masuya Research Foundation, Ministry of Education, Culture, Sports, Science and Technology (MEXT)

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