News by Subject Technology & Engineering

News Release 16-Oct-2019

Ultrafast particle interactions could help make quantum information devices feasible

Fundação de Amparo à Pesquisa do Estado de São Paulo

Research presents the detection of energy transfer from excited electrons to the crystal lattice on the femtosecond timescale. Knowledge could contribute to the development of materials that prolong the coherence time.

Journal: Physical Review Letters
Funder: São Paulo Research Foundation (FAPESP)

News Release 16-Oct-2019

EPFL is developing next-generation soft hearing implants

Ecole Polytechnique Fédérale de Lausanne

Working with clinicians from Massachusetts Eye and Ear and Harvard Medical School, a team of EPFL researchers has developed a conformable electrode implant that will allow people with a dysfunctional inner ear to hear again. This new device could replace existing auditory brainstem implants, which have a number of shortcomings.

Journal: Science Translational Medicine

News Release 16-Oct-2019

Surveying solar storms by ancient Assyrian astronomers

University of Tsukuba

University of Tsukuba researcher finds evidence of ancient solar magnetic storms based on cuneiform astrological records and carbon-14 dating. This work may help with our understanding of intense solar activity that can threaten modern electronics.

Journal: The Astrophysical Journal Letters

News Release 16-Oct-2019

Reducing open-circuit voltage loss in organic solar cells

National Institutes of Natural Sciences

Researchers at Institute for Molecular Science in Japan report that organic solar cells (OSCs) with high mobility and highly crystalline donor (D) and acceptor (A) materials were able to reduce an open-circuit voltage (V_OC) loss. The origin of the high V_OC was that the highly crystalline D/A interface reduced the energy loss related to charge recombination. The results demonstrate that careful design of the D/A interface enables high power conversion efficiencies in OSCs.

Journal: Applied Physics Letters
Funder: Grant-in-Aid for Scientific Research

News Release 16-Oct-2019

Scientists discover method to create and trap trions at room temperature

University of Maryland

A University of Maryland-led team chemically engineered carbon nanotubes to synthesize and trap trions at room temperature. Trions are quasi particles that can potentially carry more information than electrons in applications from bioimaging to chemical sensing and quantum computing. The research makes it possible to manipulate trions and study their fundamental properties in ways that have never been possible before.

Journal: ACS Central Science

News Release 15-Oct-2019

New understanding of the evolution of cosmic electromagnetic fields

University of Southern Denmark

Electromagnetism was discovered 200 years ago, but the origin of the very large electromagnetic fields in the universe is still a mystery.

Journal: Physical Review D
Funder: Villum Fonden Grant No. 13384

News Release 15-Oct-2019

Physicists shed new light on how liquids behave with other materials

University of Bristol

Using a range of theoretical and simulation approaches, physicists from the University of Bristol have shown that liquids in contact with substrates can exhibit a finite number of classes of behavior and identify the important new ones.

Journal: Proceedings of the National Academy of Sciences

News Release 15-Oct-2019

Inside the fuel cell -- Imaging method promises industrial insight

American Institute of Physics

Hydrogen-containing substances are important for many industries, but scientists have struggled to obtain detailed images to understand the element's behavior. In Review of Scientific Instruments, researchers demonstrate the quantification of hydrogen for different states of water -- i.e., liquid, frozen and supercooled -- for applications to eco-friendly fuel cells.

Journal: Review of Scientific Instruments

News Release 15-Oct-2019

Controlling the charge state of organic molecule quantum dots in a 2D nanoarray

ARC Centre of Excellence in Future Low-Energy Electronics Technologies

Australian researchers have fabricated a self-assembled, carbon-based nanofilm where the charge state (ie, electronically neutral or positive) can be controlled at the level of individual molecules. Molecular self-assembly on a metal results in a high-density, 2D, organic quantum-dot array with electric-field-controllable charge state, with the organic molecules used as 'nano-sized building blocks' in fabrication of functional nanomaterials. Achieved densities are an order of magnitude larger than conventional inorganic systems.

Journal: ACS Nano
Funder: FLEET (Australian Research Council Centre of Excellence in Future Low-Energy Electronics Technologies)

News Release 14-Oct-2019

RUDN researchers proved that flash-memory 'fingerprints' of electronic devices are truly unique

RUDN University

Experts in applied mathematics at RUDN University have experimentally proved that it is possible to accurately identify electronic devices by defects in flash memory cells. It turned out that the distribution and nature of these defects are unique, and they can play the role of 'fingerprints' for memory chips. The new method will improve protection against hacker attacks, as it would create electronic flash keys that cannot be faked. The results of the study are published in the journal IEEE Access.

Journal: IEEE Access

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