News by Subject Chemistry & Physics

News Release 22-Jan-2020

Old molecule, new tricks

University of California - Santa Barbara

Fifty years ago, scientists hit upon what they thought could be the next rocket fuel. Carboranes -- molecules composed of boron, carbon and hydrogen atoms clustered together in three-dimensional shapes -- were seen as the possible basis for next-generation propellants due to their ability to release massive amounts of energy when burned.

Journal: Nature

News Release 22-Jan-2020

Deep-sea osmolyte makes biomolecular machines heat-tolerant

Hokkaido University

Researchers have discovered a method to control biomolecular machines over a wide temperature range using deep-sea osmolyte trimethylamine N-oxide (TMAO). This finding could open a new dimension in the application of artificial machines fabricated from biomolecular motors and other proteins.

Journal: Chemical Communications
Funder: Hirose International Scholarship Foundation, Ministry of Education, Culture, Sports, Science and Technology of Japan, Future AI and Robot Technology Research and Development Project

News Release 22-Jan-2020

Physicists trap light in nanoresonators for record time

ITMO University

An international team of Russian, Australian and Korean researchers have experimentally trapped an electromagnetic wave in a gallium arsenide nanoresonator for a record-breaking time, over 200 periods of one wave oscillation. The trap has also been tested as a basis for a light frequency nanoconverter. The results were published in Science. Researchers anticipate drastically new opportunities for subwavelength optics and nanophotonics, including the development of compact sensors, night vision devices, and optical data transmission technologies.

Journal: Science

News Release 22-Jan-2020

Integrate micro chips for electronic skin

Leibniz Institute for Solid State and Materials Research

Researchers from Dresden and Osaka present the first fully integrated flexible electronics made of magnetic sensors and organic circuits which opens the path towards the development of electronic skin.

Journal: Science Advances
Funder: JSPS, NEDO, JST, MEXT, AIST, DFG, BMBF

News Release 22-Jan-2020

How're your cells' motors running?

Kyoto University

Kyoto University researchers develop a device that parks individual molecular motors on nano scale platforms and found that two types of 'kinesin' possess different properties of coordination. In kinesin-1, neither the number nor spacing of the molecules change the transport velocity of microtubules, while kinesin-14 decreased transport velocity as the number of motors on a filament increased, but increased as the spacing of the motors increased.

Journal: Science Advances
Funder: Kyoto University, Japan Society for the Promotion of Science, Tateishi Science and Technology Foundation, Japan Keirin Autorace Foundation

News Release 21-Jan-2020

Less may be more in next-gen batteries

Rice University

Rice University engineers build full lithium-ion batteries with silicon anodes and an alumina layer to protect cathodes from degrading. By limiting their energy density, the batteries promise excellent stability for transportation and grid storage use.

Journal: ACS Applied Energy Materials
Funder: Ford Motor Co. University Research Program

News Release 21-Jan-2020

New image analysis method for time-lapse microscopy shows how giant viruses infect amoeba

Tokyo University of Science

Host cells infected with giant viruses behave in a unique manner. To gain deeper insight into the infection mechanism of giant viruses, scientists at Tokyo University of Science developed a specialized algorithm that can track the movement of host cells. This method could also be used to study any other type of cells, such as cancer cells, neurons, and immune cells, serving as an efficient tool in the field of cell biology.

Journal: Frontiers in Microbiology
Funder: Tokyo University of Science

News Release 21-Jan-2020

Light-up wheels: Unique organic light-emitting molecular emitters

Osaka University

Researchers at Osaka University synthesized novel OLEDs based on efficient ring-shaped molecular macrocycles. This work may help lead to sensitive, yet inexpensive, chemical detectors.

Journal: Journal of the American Chemical Society
Funder: Japan Society for the Promotion of Science, Ministry of Education Culture Sports Science and Technology, Asahi Glass Foundation, Foundation for Polish Science, EU European Regional Development Fund, European Commission

News Release 21-Jan-2020

New self-assembled monolayer is resistant to air

University of Groningen

Organic self-assembled monolayers (SAMs) have been around for over forty years. The most widely used form is based on thiols, bound to a metal surface. However, exposure of these monolayers to air will lead to breakdown within a single day. University of Groningen scientists have now created SAMs using buckyballs functionalized with 'tails' of ethylene glycol. These have all the properties of thiol SAMs but remain chemically unchanged for several weeks when exposed to air.

Journal: Nature Materials

News Release 21-Jan-2020

Designer-defect clamping of ferroelectric domain walls for more-stable nanoelectronics

ARC Centre of Excellence in Future Low-Energy Electronics Technologies

Engineered defects in ferroelectric materials provides key to improved polarisation stability, a significant step forward for domain-wall nanoelectronics in data storage. Researchers achieved stability greater than one year (a 2000% improvement).

Journal: Nature Communications
Funder: Australian Research Council

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