News by Subject Chemistry & Physics

News Release 23-May-2019

New understanding of how cells form tunnels may help in treating wounds, tumors

'A major aspect of our research is that it just really illustrates how complex all these different components are going on inside a person's body,' said Andrew Ford.

Journal: Biomaterials

News Release 23-May-2019

Building a better salt trap: Scientists synthesize a molecular 'cage' to trap chloride

Indiana University

Indiana University researchers have synthesized a powerful new molecule to trap chloride salts. The technology has the potential to reduce its seepage into freshwater systems, which is a threat to drinkable water across the globe.

Journal: Science
Funder: US Department of Energy

News Release 22-May-2019

Good vibrations: Using piezoelectricity to ensure hydrogen sensor sensitivity

Osaka University

Researchers at Osaka University developed a new method that uses piezoelectric resonance to improve the manufacture of highly sensitive hydrogen sensors. By optimizing the gaps between palladium nanoparticles in the devices, they were able to increase the sensitivity by a factor of 12 over palladium nanoparticles fabricated by previous methods. The work in this study is important for the development of new sensing devices that are capable of detecting hydrogen at low concentration.

Journal: Applied Physics Letters
Funder: Japan Society for the Promotion of Science, Japan Science and Technology Agency

News Release 22-May-2019

New data on ultrafast electron photoemission from metallic nanostructures obtained

Lobachevsky University

Metallic nanoparticle ensembles are capable of emitting short bunches of electrons when irradiated by powerful laser pulses of femtosecond (1 fs = 10-15 s) duration. Scientists at Lobachevsky University have long been studying the plasmon effect -- the excitation by light of collective electron oscillations in nanoparticles and the amplification of the light field associated with these oscillations in the vicinity of the nanoparticle, which plays the main role in this process.

Journal: Scientific Reports

News Release 22-May-2019

A light matter: Understanding the Raman dance of solids

Tokyo Institute of Technology

Scientists at Tokyo Institute of Technology and Keio University investigated the excitation and detection of photogenerated coherent phonons in polar semiconductor GaAs through an ultrafast dual pump-probe laser for quantum interferometry.

Journal: Physical Review B

News Release 22-May-2019

Unexpected observation of ice at low temperature, high pressure questions water theory

DOE/Oak Ridge National Laboratory

Scientists at Oak Ridge National Laboratory studying super-cold states of water discovered a pathway to the unexpected formation of dense, crystalline phases of ice thought to exist beyond Earth's limits. Their findings, reported in Nature, challenge accepted theories and could lead to better understanding of ice found on other planets, moons and elsewhere in space.

Journal: Nature
Funder: Department of Energy Office of Science, Sloan Foundation Deep Carbon Observatory

News Release 21-May-2019

How to program materials

Swiss Federal Laboratories for Materials Science and Technology (EMPA)

Can the properties of composite materials be predicted? Empa scientists have mastered this feat and thus can help achieve research objectives faster. This leads, for instance, to better recycling techniques and electrically conductive synthetic materials for the solar industry.

Journal: Polymer Degradation and Stability

News Release 17-May-2019

Manipulating atoms one at a time with an electron beam

Massachusetts Institute of Technology

Researchers at MIT and elsewhere have found a way to manipulate the positions of individual atoms on a graphene sheet, which could be a first step to new quantum computing and sensing devices.

Journal: Science Advances
Funder: National Science Foundation, US Army Research Office through MIT's Institute for Soldier Nanotechnologies, Austrian Science Fund, European Research Council, Danish Council for Independent Research, the Chinese Academy of Sciences

News Release 16-May-2019

JQI researchers shed new light on atomic 'wave function'

National Institute of Standards and Technology (NIST)

Physicists have demonstrated a new way to obtain the essential details of an isolated quantum system through direct observation. The method gives information about the likelihood of finding atoms at specific locations in the system with unprecedented spatial resolution far better than an optical microscope can provide. With this technique, scientists can obtain details on a scale of tens of nanometers -- smaller than the width of a virus.

Journal: Physical Review X

News Release 15-May-2019

Magic numbers make nickel nucleus stronger

University of Tokyo

Researchers provide the first direct evidence for a rare kind of atomic nucleus. The special nickel nucleus (78Ni) is an isotope of typical nickel (58Ni), meaning they share the same number of protons but a different number of neutrons. Usually more neutrons make isotopes less stable, but this isotope is special. 78Ni is more tough or rigid than other nickel isotopes with similar numbers of neutrons -- it takes more energy to excite 78Ni into a different state.

Journal: Nature
Funder: European Research Council, Japan Society for the Promotion of Science, Japanese Ministry of Education, Culture, Sports, Science and Technology, Spanish Ministry of Economy and Business, Vietnam Ministry of Science and Technology

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