News by Subject Chemistry & Physics

Public Release: 22-Jan-2019

UMass Amherst materials chemists tap body heat to power 'smart garments'

Many wearable biosensors, data transmitters and similar tech advances for personalized health monitoring have now been 'creatively miniaturized,' says materials chemist Trisha Andrew at the University of Massachusetts Amherst, but they require a lot of energy, and power sources can be bulky and heavy. Now she and her Ph.D. student Linden Allison report that they have developed a fabric that can harvest body heat to power small wearable microelectronics such as activity trackers.

Journal: Advanced Materials Technologies
Funder: National Science Foundation, David and Lucille Packard Foundation

Public Release: 22-Jan-2019

New applications for encapsulated nanoparticles with promising properties

University of the Basque Country

The Polymerisation Process research group of the POLYMAT institute of the UPV/EHU-University of the Basque Country has managed to efficiently encapsulate semiconductor nanocrystals or quantum dots of various sizes into polymer particles; great stability in terms of their optical properties and good fluorescence control when combining different quantum dots have been achieved. The possible applicability of these materials as sensors of volatile organic compounds has also been explored.

Journal: Israel Journal of Chemistry

Public Release: 19-Jan-2019

New class of solar cells, using lead-free perovskite materials

Ulsan National Institute of Science and Technology(UNIST)

A recent study, affiliated with South Korea's Ulsan National Institute of Science and Technology (UNIST) has presented a new class of solar cells, using lead-free perovskite materials.

Journal: Advanced Energy Materials

Public Release: 17-Jan-2019

Complex molecules emerge without evolution or design

University of Groningen

In biology, folded proteins are responsible for most advanced functions. These complex proteins are the result of evolution or design by scientists. Now, a team of scientists led by University of Groningen Professor of Systems Chemistry, Sijbren Otto, have discovered a new class of complex folding molecules that emerge spontaneously from simple building blocks. The results were published in the Journal of the American Chemical Society on 16 January.

Journal: Journal of American Chemical Society

Public Release: 17-Jan-2019

New light shed on intensely studied material

Linköping University

The organic polymer PEDOT is probably one of the world's most intensely studied materials. Despite this, researchers at Linköping University have now demonstrated that the material functions in a completely different manner than previously believed. The result has huge significance in many fields of application.

Journal: ACS Applied Polymer Materials

Public Release: 15-Jan-2019

Light up logic: Engineers from UTokyo and RIKEN perform computational logic with light

University of Tokyo

For the first time, researchers performed logic operations -- the basis of computation -- with a chemical device using electric fields and ultraviolet light. The device and the pioneering methods used open up research possibilities including low-power, high-performance computer chips.

Journal: Science
Funder: JSPS

Public Release: 14-Jan-2019

Discovery of single atom structure leads to more efficient catalyst

Virginia Tech

The discovery shows an efficiency rate that is up to 25 times higher than traditional catalysts made from larger iridium structures or nanoparticles.

Journal: Nature Catalysis

Public Release: 14-Jan-2019

Researchers gain control over soft-molecule synthesis

University of Illinois at Urbana-Champaign

By gaining control over shape, size and composition during synthetic molecule assembly, researchers can begin to probe how these factors influence the function of soft materials. Finding these answers could help advance virology, drug delivery development and the creation of new materials.

Journal: Proceedings of the National Academy of Sciences
Funder: National Science Foundation

Public Release: 14-Jan-2019

Viennese scientists develop promising new type of polymers

Vienna University of Technology

Organic polymers can nowadays be found in solar cells, sensors, LEDs and in many other technical applications. One specific type of polymers - known as S-PPVs - were previously regarded as promising in theory but were almost impossible to produce from a technical perspective. After many years of work, a team from TU Wien has now managed to identify a new chemical synthesis process for the production of S-PPVs.

Journal: Polymer Chemistry

Public Release: 14-Jan-2019

Breakthrough in organic electronics

Chalmers University of Technology

Researchers from Chalmers University of Technology, Sweden, have discovered a simple new tweak that could double the efficiency of organic electronics. OLED-displays, plastic-based solar cells and bioelectronics are just some of the technologies that could benefit from their new discovery, which deals with 'double-doped' polymers.

Journal: Nature Materials
Funder: Swedish Research Council, Knut and Alice Wallenberg Foundation, European Research Council

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