News by Subject Chemistry & Physics

News Release 17-Jan-2020

Chemists have managed to stabilize the 'capricious' phosphorus

An international team of Russian, Swedish and Ukrainian scientists has identified an effective strategy to improve the stability of two-dimensional black phosphorus, which is a promising material for use in optoelectronics.

Journal: The Journal of Physical Chemistry Letters

News Release 17-Jan-2020

Walking with atoms -- chemical bond making and breaking recorded in action

University of Nottingham

Scientists have for the first time captured and filmed atoms bonding together, using advanced microscopy methods they captured a moment that is around half a million times smaller than the width of a human hair.

Journal: Science Advances

News Release 15-Jan-2020

The mysterious movement of water molecules

Graz University of Technology

Water is all around us and essential for life. Nevertheless, research into its behaviour at the atomic level -- above all how it interacts with surfaces -- is thin on the ground. Thanks to a new experimental method, TU Graz researchers have now delivered insights into the atomic-level movement of water molecules, which they outline in a paper in Nature Communications.

Journal: Nature Communications

News Release 10-Jan-2020

Visualizing chemical reactions, e.g. from H2 and CO2 to synthetic natural gas

Ecole Polytechnique Fédérale de Lausanne

Scientists at EPFL have designed a reactor that can use IR thermography to visualize dynamic surface reactions and correlate it with other rapid gas analysis methods to obtain a holistic understanding of the reaction in rapidly changing conditions.

Journal: ACS Catalysis
Funder: Swiss National Science Foundation (SNSF)

News Release 9-Jan-2020

Scientists observe ultrafast chemistry in water caused by ionizing radiation

Nanyang Technological University

An international research team jointly led by Nanyang Technological University, Singapore (NTU Singapore), the US Department of Energy's (DOE) Argonne National Laboratory and Germany's Deutsches Elektronen-Synchrotron (DESY) has for the first time observed the ultrafast formation and then breakdown of the water ion that is created when water is exposed to ionizing radiation.

Journal: Science

News Release 8-Jan-2020

Experiments into amorphous carbon monolayer lend new evidence to physics debate

Vanderbilt University

A new study into two-dimensional amorphous carbon is providing answers to long-standing questions regarding the atomic makeup of bulk amorphous materials, opening the door to exciting device possibilities in the future.

Journal: Nature
Funder: National Research Foundation, National Science Foundation, Prime Minister's Office - Singapore, US Department of Energy, McMinn Endowment

News Release 8-Jan-2020

Nanobubbles in nanodroplets

University of Freiburg

Freiburg researchers investigate ultrafast reaction of superfluid helium triggered by extreme ultraviolet laser pulses.

Journal: Nature Communications

News Release 7-Jan-2020

Attosecond control of an atomic electron cloud

National Institutes of Natural Sciences

Researchers at SAGA Light Source, the University of Toyama, Hiroshima University and the Institute for Molecular Science have demonstrated a method to control the shape and orientation of an electron cloud in an atom by tuning the attosecond spacing in a double pulse of synchrotron radiation.

Journal: Physical Review Letters
Funder: Grant-in-Aid for Scientific Research

News Release 3-Jan-2020

The case of the elusive Majorana: The so-called 'angel particle' is still a mystery

Penn State

A 2017 report of the discovery of a particular kind of Majorana fermion--the chiral Majorana fermion, referred to as the 'angel particle'--is likely a false alarm, according to new research.

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

News Release 3-Jan-2020

Clusters of gold atoms form peculiar pyramidal shape

KU Leuven

Freestanding clusters of twenty gold atoms take the shape of a pyramid, researchers discovered. This is in contrast with most elements, which organize themselves by forming shells around one central atom. The team of researchers led by KU Leuven published their findings in Science Advances.

Journal: Science Advances

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