News by Subject Chemistry & Physics

Public Release: 19-Mar-2019

Speeding the development of fusion power to create unlimited energy on Earth

A detailed examination of the challenges and tradeoffs in the development of a compact fusion facility with high-temperature superconducting magnets.

Journal: Philosophical Transactions of the Royal Society A
Meeting: Fusion Energy Using Tokamaks: Can Development Be Accelerated?
Funder: US Department of Energy

Public Release: 19-Mar-2019

Study shows pressure induces unusually high electrical conductivity in polyiodide

National Centre of Competence in Research (NCCR) MARVEL

A study into the effects of high mechanical pressure on the polyiodide TEAI showed that it brings unusually high electrical conductivity starting from insulating state, suggesting that the material may be useful as a switchable semiconductor. This system could represent an alternative to gel electrolytes and ionic liquids in dye-synthesized solar cells. The paper, Pressure-induced Polymerization and Electrical Conductivity of a Polyiodide, has been published as a Very Important Paper in Angewandte Chemie.

Journal: Angewandte Chemie

Public Release: 18-Mar-2019

Researchers discover new material to help power electronics

Ohio State University

A research team at The Ohio State University has discovered a way to simplify how electronic devices use those electrons -- using a material that can serve dual roles in electronics, where historically multiple materials have been necessary. The team published its findings March 18, 2019 in the journal Nature Materials.

Journal: Nature Materials
Funder: National Science Foundation, Air Force Office of Scientific Research, Camille and Henry Dreyfus Foundation

Public Release: 18-Mar-2019

Semimetals are high conductors

University of California - Davis

Researchers in China and at UC Davis have measured high conductivity in very thin layers of niobium arsenide, a type of material called a Weyl semimetal. The material has about three times the conductivity of copper at room temperature.

Journal: Nature Materials
Funder: National Natural Science Foundation of China and other Chinese government agencies, US National Science Foundation, Australian Research Council, Science Foundation Ireland

Public Release: 15-Mar-2019

Researchers measure near-perfect performance in low-cost semiconductors

Stanford University

Stanford researchers redefine what it means for low-cost semiconductors, called quantum dots, to be near-perfect and find that quantum dots meet quality standards set by more expensive alternatives.

Journal: Science
Funder: Department of Energy, European Research Council (ERC), JXTG Nippon Oil & Energy

Public Release: 14-Mar-2019

Exotic 'second sound' phenomenon observed in pencil lead

Massachusetts Institute of Technology

At relatively balmy temperatures, heat behaves like sound when moving through graphite, study reports.

Journal: Science
Funder: Office of Naval Research, US Department of Energy, National Science Foundation

Public Release: 11-Mar-2019

Sydney united to build a quantum harbor city

University of Sydney

Working together, researchers at the University of Sydney and UNSW have overcome a fundamental hurdle to building quantum computers in silicon.

Journal: Nature Nanotechnology
Funder: US Army Research Office, Australian Research Council, NSW Node of the Australian National Fabrication Facility

Public Release: 7-Mar-2019

At the limits of detectability

Technical University of Munich (TUM)

While spectroscopic measurements are normally averaged over myriad molecules, a new method developed by researchers at the Technical University of Munich provides precise information about the interaction of individual molecules with their environment. This will accelerate the identification of efficient molecules for future photovoltaic technologies, for example.

Journal: Proceedings of the National Academy of Sciences
Funder: European Research Council, Laser-Lab, Austrian Fund for the Promotion of Scientific Research, Danish Council of Independent Research

Public Release: 7-Mar-2019

When semiconductors stick together, materials go quantum

DOE/Lawrence Berkeley National Laboratory

A team of researchers led by DOE's Lawrence Berkeley National Laboratory has developed a simple method that could turn ordinary semiconducting materials into quantum machines -- superthin devices marked by extraordinary electronic behavior that could help to revolutionize a number of industries aiming for energy-efficient electronic systems -- and provide a platform for exotic new physics.

Journal: Nature
Meeting: 2019 APS March Meeting

Public Release: 6-Mar-2019

Light from an exotic crystal semiconductor could lead to better solar cells

Rutgers University

Scientists have found a new way to control light emitted by exotic crystal semiconductors, which could lead to more efficient solar cells and other advances in electronics, according to a Rutgers-led study in the journal Materials Today.

Journal: Materials Today
Funder: Department of Energy, National Science Foundation

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