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Physics - Electroengineering - 16.12.2014
New law for superconductors
MIT researchers have discovered a new mathematical relationship - between material thickness, temperature, and electrical resistance - that appears to hold in all superconductors. They describe their findings in the latest issue of Physical Review B . The result could shed light on the nature of superconductivity and could also lead to better-engineered superconducting circuits for applications like quantum computing and ultralow-power computing.

Chemistry - Electroengineering - 08.12.2014
Chemists create ’artificial chemical evolution’ for the first time
Scientists have taken an important step towards the possibility of creating synthetic life with the development of a form of artificial evolution in a simple chemistry set without DNA. A team from the University of Glasgow's School of Chemistry report in a new paper today (Monday 8 December) on how they have managed to create an evolving chemical system for the first time.

Electroengineering - Mechanical Engineering - 01.12.2014
New research could transform high speed optical networks
Press release issued: 1 December 2014 There is an ever growing demand for high speed internet communication systems. New research has shown optical switching technology built on nanoantenna reflectarrays and tunable materials could transform high speed optical networks. The study by Dr Maciej Klemm and Professor Martin Cryan from the University of Bristol's Department of Electrical and Electronic Engineering is published in the journal, Optics Express .

Physics - Electroengineering - 20.11.2014
New 2-D quantum materials for nanoelectronics
Researchers at MIT say they have carried out a theoretical analysis showing that a family of two-dimensional materials exhibits exotic quantum properties that may enable a new type of nanoscale electronics. These materials are predicted to show a phenomenon called the quantum spin Hall (QSH) effect, and belong to a class of materials known as transition metal dichalcogenides, with layers a few atoms thick.

Health - Electroengineering - 18.11.2014
Physicians Prescribe Less Brand Name Drugs When Electronic Health Record Default Settings Show Generics First
Programming electronic health records to make generic drugs the default choice when physicians write prescriptions may offer one way to reduce unnecessary spending and improve health care value in the face of spiraling U.S. health expenditures, according to a new study from researchers in the Perelman School of Medicine , The Wharton School and the Center for Health Incentives and Behavioral Economics (CHIBE) at the University of Pennsylvania, and the Philadelphia VA Medical Center.

Computer Science / Telecom - Electroengineering - 14.11.2014
Recommendation theory
Devavrat Shah's group at MIT's Laboratory for Information and Decision Systems (LIDS) specializes in analyzing how social networks process information. In 2012, the group demonstrated algorithms that could predict what topics would trend on Twitter up to five hours in advance; this year, they used the same framework to predict fluctuations in the prices of the online currency known as Bitcoin.

Physics - Electroengineering - 05.11.2014
Researchers hit milestone in accelerating particles with plasma
Frank Tsung and Weiming An/UCLA Computer simulation of a wake produced by an intense electron bunch as it passes through an ionized gas from left to right. Researchers from UCLA and the Department of Energy's SLAC National Accelerator Laboratory have shown that a promising technique for accelerating electrons on waves of plasma is efficient enough to power a new generation of shorter, more economical accelerators.

Physics - Electroengineering - 03.11.2014
Outsmarting Thermodynamics in Self-assembly of Nanostructures
Outsmarting Thermodynamics in Self-assembly of Nanostructures
If you can uniformly break the symmetry of nanorod pairs in a colloidal solution, you're a step ahead of the game toward achieving new and exciting metamaterial properties. But traditional thermodynamic -driven colloidal assembly of these metamaterials, which are materials defined by their non-naturally-occurring properties, often result in structures with high degree of symmetries in the bulk material.

Mechanical Engineering - Electroengineering - 27.10.2014
Boosting Biogasoline Production in Microbes
Boosting Biogasoline Production in Microbes
Joint BioEnergy Institute Researchers Combine Systems Biology with Genetic Engineering to Improve Production of Isopentenol in E.Coli In the on-going effort to develop advanced biofuels as a clean, green and sustainable source of liquid transportation fuels, researchers at the U.S. Department of Energy (DOE)'s Joint BioEnergy Institute (JBEI) have identified microbial genes that can improve both the tolerance and the production of biogasoline in engineered strains of Escherichia coli.

Chemistry - Electroengineering - 16.10.2014
New method for fabricating graphene nanoribbons brings scientists a step closer to revolutionizing electronics
New method for fabricating graphene nanoribbons brings scientists a step closer to revolutionizing electronics
New self-assembly method for fabricating graphene nanoribbons brings scientists a step closer to revolutionizing electronics Shaun Mason First characterized in 2004, graphene is a two-dimensional material with extraordinary properties. The thickness of just one carbon atom, and hundreds of times faster at conducting heat and charge than silicon, graphene is expected to revolutionize high-speed transistors in the near future.

Electroengineering - Physics - 12.10.2014
Solid nanoparticles can deform like a liquid
A surprising phenomenon has been found in metal nanoparticles: They appear, from the outside, to be liquid droplets, wobbling and readily changing shape, while their interiors retain a perfectly stable crystal configuration. The research team behind the finding, led by MIT professor Ju Li, says the work could have important implications for the design of components in nanotechnology, such as metal contacts for molecular electronic circuits.

Electroengineering - Physics - 12.10.2014
Useful for spintronics: Big surprises in a thin surface region
Useful for spintronics: Big surprises in a thin surface region
The need for ever faster and more efficient electronic devices is growing rapidly, and thus the demand for new materials with new properties. Oxides, especially ones based on strontium titanate (SrTiO 3 ), play an important role here. Researchers recently discovered that SrTiO 3 , although actually an insulator, can form a metallic layer on its surface, in which electric current can flow.

Physics - Electroengineering - 22.09.2014
Light can play seesaw at the nanoscale
Discovery is another step toward faster and more energy-efficient optical devices for computation and communication University of Minnesota electrical engineering researchers have developed a unique nanoscale device that for the first time demonstrates mechanical transportation of light. The discovery could have major implications for creating faster and more efficient optical devices for computation and communication.

Physics - Electroengineering - 15.09.2014
Simulation method identifies materials for better batteries
Researchers from the University of Cambridge have devised a new simulation technique which reliably predicts the structure and behaviour of different materials, in order to accelerate the development of next-generation batteries for a wide range of applications.

Health - Electroengineering - 12.09.2014
Penn Medicine: Zebrafish Model of a Learning and Memory Disorder Shows Better Way to Target Treatment
One in six cancer patients enroll in hospice only during their last three days of life, according to a new study from a team from the Perelman School of Medicine at the University of Pennsylvania. Their findings, published online last month in the Journal of Clinical Oncology (JCO) also reveal a profile of patients who may be most at risk of these late admissions.

Physics - Electroengineering - 10.09.2014
Excitonic Dark States Shed Light on TMDC Atomic Layers
Excitonic Dark States Shed Light on TMDC Atomic Layers
A team of Berkeley Lab researchers believes it has uncovered the secret behind the unusual optoelectronic properties of single atomic layers of transition metal dichalcogenide (TMDC) materials, the two-dimensional semiconductors that hold great promise for nanoelectronic and photonic applications. Using two-photon excitation spectroscopy, the researchers probed monolayers of tungsten disulfide, one of the most promising of 2D materials, and found evidence for the existence of excitonic dark states - energy states in which single photons can be neither absorbed nor emitted.

Physics - Electroengineering - 10.09.2014
Defying physics, engineers prove a magnetic field for light
Defying physics, engineers prove a magnetic field for light
In electronics, changing the path of electrons and manipulating how they flow is as easy as applying a magnetic field. Not so for light. "We don't have such a thing for light," said Michal Lipson, professor of electrical and computer engineering. "For the majority of materials, there is no such thing as something I can turn on, and apply this magic field to change the path of light." Until now.

Electroengineering - Physics - 08.09.2014
Layered graphene sandwich for next generation electronics
08 Sep 2014 Sandwiching layers of graphene with white graphene could produce designer materials capable of creating high-frequency electronic devices, University of Manchester scientists have found. Writing , the researchers have demonstrated how combining the two-dimensional materials in a stack could create perfect crystals capable of being used in next generation transistors.

Physics - Electroengineering - 26.08.2014
Competition for Graphene
Competition for Graphene
A new argument has just been added to the growing case for graphene being bumped off its pedestal as the next big thing in the high-tech world by the two-dimensional semiconductors known as MX2 materials. An international collaboration of researchers led by a scientist with the U.S. Department of Energy (DOE)'s Lawrence Berkeley National Laboratory (Berkeley Lab) has reported the first experimental observation of ultrafast charge transfer in photo-excited MX2 materials.

Physics - Electroengineering - 20.08.2014
Laser device may end pin pricks, improve quality of life for diabetics
Laser device may end pin pricks, improve quality of life for diabetics
Laser device may end pin pricks, improve quality of life for diabetics Posted August 20, 2014; 03:45 p.m. by John Sullivan, Office of Engineering Princeton University researchers have developed a way to use a laser to measure people's blood sugar, and, with more work to shrink the laser system to a portable size, the technique could allow diabetics to check their condition without pricking themselves to draw blood.
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