News by Subject Chemistry & Physics

News Release 6-Dec-2019

A new view for glasses

Institute of Industrial Science, The University of Tokyo

Scientists at The University of Tokyo used computer simulations to demonstrate how the dynamics of a glassy liquid can be predicted based on the local structural ordering at the atomic level. This work may lead to a deeper understanding of glass transition.

Journal: Nature Communications

News Release 4-Dec-2019

Your zip software can calculate the complex physical quantity called entropy

American Friends of Tel Aviv University

A new Tel Aviv University study proposes a radically simple and efficient way of calculating the complex physical quantity known as entropy -- and it probably exists on your own computer.

Journal: Physical Review Letters

News Release 3-Dec-2019

Bio-inspired hydrogel can rapidly switch to rigid plastic

Hokkaido University

A new material that stiffens 1,800-fold when exposed to heat could protect motorcyclists and racecar drivers during accidents.

Journal: Advanced Materials
Funder: Japan Society for the Promotion of Science, KAKENHI

News Release 3-Dec-2019

Electron correlations in carbon nanostructures

Kiel University

Graphene nanoribbons are only a few carbon atoms wide and have different electrical properties depending on their shape and width. A team from Kiel University has now succeeded in simulating the detailed behavior of electrons in these special nanostructures using an elaborate computational model.

Journal: Nano Letters
Funder: Danish National Research Foundation

News Release 3-Dec-2019

Illuminating the path for super-resolution imaging with improved rhodamine dyes

Singapore University of Technology and Design

DUT and SUTD researchers developed a new strategy that enhances the brightness and clarity of sub-cellular structures when dyed with novel rhodamine fluorophores, laying the ground for the advancement of super-resolution microscopes.

Journal: Journal of the American Chemical Society
Funder: National Natural Science Foundation of China, Singapore University of Technology and Design, SUTD-MIT International Design Centre

News Release 2-Dec-2019

Scientists reveal the structure of viral rhodopsins

Moscow Institute of Physics and Technology

The structure of an Organic Lake Phycodnavirus rhodopsin II (OLPVRII), which is a unique protein found in the genome of giant viruses, has been determined thanks to the work of MIPT graduates and PhD students.

Journal: Nature Communications

News Release 2-Dec-2019

The impact of molecular rotation on a peculiar isotope effect on water hydrogen bonds

National Institutes of Natural Sciences

Quantum nature of hydrogen bonds in water manifests itself in peculiar physicochemical isotope effects: while deuteration often elongates and weakens hydrogen bonds of typical hydrogen-bonded systems composed of bulky constituent molecules, it elongates but strengthens hydrogen bonds of water molecular aggregates. The origin of this unique isotope effect of water molecules remains to be elucidated at the molecular level. A recent experimental study on the sublimation of isotope-mixed water ice has tackled this issue.

Journal: Physical Review Materials
Funder: Grant-in-Aid for Scientific Research on Innovative Areas, Japan Science and Technology Agency, Grant-in-Aid for Japan Society for the Promotion of Science Research Fellow, Grant-in-Aid for Scientific Research

News Release 2-Dec-2019

Molecular vibrations lead to high performance laser

University of Southern California

Researchers at the USC Viterbi School of Engineering have discovered a new phenomenon and are applying it to make a laser with over 40% efficiency-nearly 10 times higher than other similar lasers. The laser itself is made from a single layer of molecules anchored to a glass ring on a silicon wafer. It has improved power consumption and is fabricated from more sustainable materials than previous lasers.

Journal: Nature Photonics
Funder: IARPA, Office of Naval Research

News Release 2-Dec-2019

SLAC scientists invent a way to see attosecond electron motions with an X-ray laser

DOE/SLAC National Accelerator Laboratory

Researchers at the Department of Energy's SLAC National Accelerator Laboratory have invented a way to observe the movements of electrons with powerful X-ray laser bursts just 280 attoseconds, or billionths of a billionth of a second, long.

Journal: Nature Photonics

News Release 2-Dec-2019

Controlling the optical properties of solids with acoustic waves

Ecole Polytechnique Fédérale de Lausanne

Physicists from Switzerland, Germany, and France have found that large-amplitude acoustic waves, launched by ultrashort laser pulses, can dynamically manipulate the optical response of semiconductors.

Journal: Science Advances
Funder: Swiss National Science Foundation, European Research Council, Horizon 2020

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