News by Subject Chemistry & Physics

News Release 15-Jan-2021

Target discovered that halts osteoarthritis-type knee cartilage degeneration

University of Pennsylvania School of Medicine
Research News Release

In a mouse study, researchers used nanotechnology and previous knowledge of a protein pathway to significantly reduce knee cartilage degeneration and pain

Journal: Science Translational Medicine
Funder: National Institutes of Health

News Release 15-Jan-2021

Newly developed GaN based MEMS resonator operates stably even at high temperature

Japan Science and Technology Agency
Research News Release

JST PRESTO researcher developed a MEMS resonator that stably operates even under high temperatures by regulating the strain caused by the heat from gallium nitride (GaN). This device is small, highly sensitive and can be integrated with CMOS technology promising for the application to 5G communication, IoT timing device, on-vehicle applications, and advanced driver assistance system.

Meeting: IEEE International Electron Devices Meeting (IEDM2020)
Funder: Japan Science and Technology Agency

News Release 15-Jan-2021

Nanodiamonds feel the heat

Osaka University
Research News Release

Scientists from Osaka University, The University of Queensland, and the Faculty of Engineering at the National University of Singapore have created polymer-coated nanodiamonds that can be absorbed into cells. Based on changes in their fluorescence properties, the internal thermal conductivity of the cell can be measured, which may lead to new heat treatments that attack cancer cells.

Journal: Science Avances
Funder: Japan Society for the Promotion of Science, Japan Science and Technology Agency, Human Frontier Science Program, ATI Research Grant, Iketani Science and Technology Foundation, Kurita Water and Environment Foundation

News Release 14-Jan-2021

Research breaks new ground in understanding how a molecular motor generates force

University of Massachusetts Amherst
Research News Release

A team of biophysicists set out to tackle the long-standing question about the nature of force generation by myosin, the molecular motor responsible for muscle contraction. The key question they addressed - one of the most controversial topics in the field - was: how does myosin convert chemical energy, in the form of ATP, into mechanical work? The answer revealed new details into how myosin, the engine of muscle and related motor proteins, transduces energy.

Journal: Journal of Biological Chemistry

News Release 14-Jan-2021

Quantum computers to study the functioning of the molecules of life

Università di Trento
Research News Release

A breakthrough that has implications for molecular biology, pharmacology and nanotechnologies. The fields of application are many. Identifying the mechanisms behind neurodegenerative processes in some proteins, for example, can help limit their proliferation. Understanding how a protein takes on a certain shape can open the way to use the nanomachines that nature has designed to cut, edit or block damaged or defective genes. Their study was published in the international academic journal Physical Review Letters

Journal: Physical Review Letters

News Release 14-Jan-2021

Keeping the costs of superconducting magnets down using ultrasound

Shibaura Institute of Technology
Research News Release

Although magnesium diboride (MgB2) is an interesting superconductor made from abundant materials, increasing its critical current density through easily accessible means has proven challenging. In a recent study, scientists form Shibaura Institute of Technology, Japan, used ultrasonication to turn cheap commercial boron into a fine powder. With it, bulk MgB2 with enhanced superconducting properties can be produced, paving the way to affordable superconducting magnets for medical and transportation applications.

Journal: Materials Science and Engineering: B
Funder: Shibaura Institute of Technology

News Release 14-Jan-2021

Physical virology shows the dynamics of virus reproduction

University of Groningen
Research News Release

The reproductive cycle of viruses requires self-assembly, maturation of virus particles and, after infection, the release of genetic material into a host cell. New physics-based technologies allow scientists to study the dynamics of this cycle and may eventually lead to new treatments.

Journal: Nature Reviews Physics

News Release 14-Jan-2021

Giving the hydrogen economy an acid test

University of Tsukuba
Research News Release

Tsukuba University scientists show that the effectiveness of hydrogen-producing metal catalysts protected by graphene depends on the ability of protons to penetrate into the inner metallic surface. This work may lead to widely available hydrogen-powered cars.

Journal: Nature Communications

News Release 14-Jan-2021

A scanning transmission X-ray microscope for analysis of chemical states of lithium

National Institutes of Natural Sciences
Research News Release

A new method to analyze chemical status of lithium was developed by using a synchrotron-based scanning transmission soft X-ray microscope (STXM). A key of the method is installation of a newly designed X-ray lens, a low-pass filtering zone plate, to the STXM to improve quality of a monochromatic X-ray. 2-dimensional chemical state of a test electrode of Li-ion battery was successfully analyzed with spatial resolution of 72 nm.

Journal: Review of Scientific Instruments
Funder: Grant-in-Aid for Scientific Research

News Release 13-Jan-2021

Pivotal discovery in quantum and classical information processing

DOE/Argonne National Laboratory
Research News Release

Researchers have achieved, for the first time, electronically adjustable interactions between microwaves and a phenomenon in certain magnetic materials called spin waves. This could have application in quantum and classical information processing.

Journal: Physical Review Letters

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