News by Subject Chemistry & Physics

News Release 17-Oct-2019

A simpler way to make some medicines

Organic chemists have figured out how to synthesize the most common molecule arrangement in medicine, a scientific discovery that could change the way a number of drugs -- including one most commonly used to treat ovarian cancer -- are produced. Their discovery, published today in the journal Chem, gives drug makers a crucial building block for creating medicines that, so far, are made with complex processes that result in a lot of waste.

Journal: Chem

News Release 17-Oct-2019

Figuring out Alzheimer's

Institute of Physical Chemistry of the Polish Academy of Sciences

Alzheimer's disease and the accompanying personality breakdown frighten many of us. Unfortunately, the drugs currently available are ineffective. Thanks to the work of a team headed by Dr. Piotr Pieta of the IPC PAS, it may be possible to develop new and more effective pharmaceuticals to fight this disease. The scientists have shown how the size of beta-amyloid molecules affects the way they interact with model brain cell membranes.

Journal: Langmuir

News Release 17-Oct-2019

Big data technique reveals previously unknown capabilities of common materials

Rensselaer Polytechnic Institute

According to research published today by Nature Journal NPG Asia Materials, a group of researchers -- led by Edwin Fohtung, an associate professor of materials science and engineering at Rensselaer Polytechnic Institute -- have found a new way to optimize nickel by unlocking properties that could enable numerous applications, from biosensors to quantum computing.

Journal: NPG Asia Materials

News Release 17-Oct-2019

Weaving quantum processors out of laser light

Centre for Quantum Computation & Communication Technology

Researchers open a new avenue to quantum computing with a breakthrough experiment: a large-scale quantum processor made entirely of light.

Journal: Science
Funder: Australian Research Council Centre of Excellence for Quantum Computation and Communication Technology, Japan Society for the Promotion of Science, UTokyo Foundation, Nichia Corporation, Advanced Leading Graduate Course for Photon Science

News Release 16-Oct-2019

Distribution of highly radioactive microparticles in Fukushima revealed

University of Helsinki

New method allows scientists to create a quantitative map of radioactive cesium-rich microparticle distribution in soils collected around the damaged Fukushima Daiichi Nuclear Power Plant Nuclear Power Plant (FDNPP). This could help inform clean-up efforts in Fuksuhima region.

Journal: Chemosphere

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

Quantum physics: Ménage à trois photon-style

Université de Genève

When two photons become entangled, the quantum state of the first will correlate perfectly with the quantum state of the second. Today, researchers (UNIGE and IPM) have proved that 3 pairs of entangled photons allow for a new form of quantum correlation in theory. When the scientists forced 2 photons from separate pairs to become entangled, the connection was also made with their twin photon present elsewhere in the network, forming a highly-correlated triangle.

Journal: Physical Review Letters

News Release 15-Oct-2019

Chains of atoms move at lightning speed inside metals

Linköping University

A phenomenon that has previously been seen when researchers simulate the properties of planet cores at extreme pressures has now also been observed in pure titanium at atmospheric pressure. Chains of atoms dash around at lightning speeds inside the solid material.

Journal: Physics Review Letters
Funder: Olle Engkvist Foundation, Swedish Research Council, Swedish Government Strategic Research Area in Materials Science on Functional Materials, Linköping University, VINN Excellence Center Functional Nanoscale Materials

News Release 15-Oct-2019

Quantum paradox experiment may lead to more accurate clocks and sensors

University of Queensland

More accurate clocks and sensors may result from a recently proposed experiment, linking an Einstein-devised paradox to quantum mechanics. University of Queensland physicist Dr Magdalena Zych said the international collaboration aimed to test Einstein's twin paradox using quantum particles in a 'superposition' state.

Journal: Science Advances

News Release 14-Oct-2019

Overlap allows nanoparticles to enhance light-based detection

Rice University

Rice University scientists use the plasmonic properties of gold nanoparticles to amplify light from molecules triggered by electrochemiluminescence. The work could help researchers analyze the active surfaces of catalysts and other materials at the nanoscale.

Journal: Journal of Chemical Physics
Funder: Department of Energy's Office of Science, Basic Energy Sciences, Robert A. Welch Foundation, Smalley-Curl Institute

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