#Ultrafast heat conduction can manipulate nanoscale magnets Researchers at the University of Illinois at Urbana-Champaign have uncovered physical mechanisms allowing the manipulation of magnetic information with heat.
These new phenomena rely on the transport of thermal energy, in contrast to the conventional application of magnetic fields, providing a new,
and highly desirable way to manipulate magnetization at the nanoscale.""In our study, we make use of the fact that a heat current passing through a magnetic material creates a separation of electron spins.
This process creates a current of magnetic dipoles that we use to manipulate the orientation of a second magnetic layer,
"said David Cahill, a Donald B. Willett Professor of Engineering and head of the Department of Materials science and engineering at Illinois."The physics of separating spins with heat currents is related to the operation of thermocouples and the thermoelectric generators that power deep space
probes. In those thermoelectric devices, a heat current causes a separation of electrical charges. That separation of electrical charge can then be used to measure a temperature
or provide electrical power.""""We use the spin current created by ultrafast heat conduction to generate spin transfer torque.
and enables the manipulation of nanomagnets with spin currents rather than magnetic fields, "explained Gyung-Min Choi,
who recently completed his Phd in materials science and engineering at Illinois."Spin transfer torque has often been realized by passing electrical currents through magnetic layers.
#Nanomaterial self-assembly imaged in real time A team of researchers from UC San diego, Florida State university and Pacific Northwest National Laboratories has visualized for the first time the growth of'nanoscale'chemical complexes in real time,
demonstrating that processes in liquids at the scale of one-billionth of a meter can be documented as they happen.
which will make possible many future advances in nanotechnology, is detailed in a paper published online today in the Journal of the American Chemical Society.
for example, to better understand the stepwise formation of nanostructures. Previously, scientists could examine changes in nanostructures only by looking at the large-scale alterations of a bulk population of particles
or by taking'screen shots'in a static fashion of individual nanostructures with electron microscopy.''That process is like taking photos every 10 minutes of a football game
and then trying to piece these photos together to tell the story of what is really a highly dynamic process,
an associate professor of chemistry and biochemistry at UC San diego who headed the research effort with Seth Cohen, chair of UC San diego's Department of chemistry and Biochemistry.'
'Until now, this was the state of the art in terms of how we could document how nanostructures formed. The development we describe in our paper demonstrates that these processes can be observed in real time,
by literally videoing these processes on the nanoscale level using an electron microscope.''The development employed a recently developed process called Liquid Cell Transmission Electron microscopy.
or TEM, has long been used by scientists to image nanoscale materials and understand nanoscale structure.
While advances in Liquid Cell TEM, or LCTEM, had permitted scientists to visualize the motion of nanoscale objects in liquids,
researchers had figured not yet out a way to use it to visualize the growth of complex self-assembled, chemical nanostructures.'
'We showed for the first time that this technique can be used to observe the growth of complex organic-inorganic hybrid materials,
'This demonstration marks a significant step forward in LCTEM becoming essential for our understanding of nanoscale processes for all materials in liquids.'
who is an expert in the technique, while Park was responsible for the video analysis. To make things simple,
if these nanostructures would survive the experiment. This is necessary because materials are susceptible to being destroyed by the high energy electron beam that is used to image them.
'That is, length scales can be observed that are relevant to nanoscale materials and processes. In terms of imaging dynamics like this, we believe it will impact how nanotechnology is developed in the future.'#
'##The research project was supported by grants from the Department of energy's Office of Basic energy Sciences, the Department of defense and the National Science Foundation.##
###For more information, please click herecontacts: Kim Mcdonaldwriteemail('ucsd. edu','kmcdonald';'858-534-7572copyright University of California-San Diegoissuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.
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Graphene and diamonds prove a slippery combination Abstract: Scientists at the U s. Department of energy's Argonne National Laboratory have found a way to use tiny diamonds
and graphene to give friction the slip, creating a new material combination that demonstrates the rare phenomenon of"superlubricity."
"Led by nanoscientist Ani Sumant of Argonne's Center for Nanoscale Materials (CNM) and Argonne Distinguished Fellow Ali Erdemir of Argonne's Energy systems Division, the five-person Argonne team
combined diamond nanoparticles, small patches of graphene-a two-dimensional single-sheet form of pure carbon-and a diamond-like carbon material to create superlubricity, a highly-desirable property in
which friction drops to near zero. According to Erdemir, as the graphene patches and diamond particles rub up against a large diamond-like carbon surface, the graphene rolls itself around the diamond particle, creating something that looks like a ball bearing on the nanoscopic level."
"The interaction between the graphene and the diamond-like carbon is essential for creating the'superlubricity'effect,
"he said.""The two materials depend on each other.""At the atomic level, friction occurs when atoms in materials that slide against each other become"locked in state,
"which requires additional energy to overcome.""You can think of it as like trying to slide two egg cartons against each other bottom-to-bottom,
"By creating the graphene-encapsulated diamond ball bearings, or"scrolls",the team found a way to translate the nanoscale superlubricity into a macroscale phenomenon.
Because the scrolls change their orientation during the sliding process, enough diamond particles and graphene patches prevent the two surfaces from becoming locked in state.
The team used large-scale atomistic computations on the Mira supercomputer at the Argonne Leadership Computing Facility to prove that the effect could be seen not merely at the nanoscale but also at the macroscale."
"A scroll can be manipulated and rotated much more easily than a simple sheet of graphene or graphite,
"Berman said. However, the team was puzzled that while superlubricity was maintained in dry conditions, in a humid environment this was not the case.
Because this behavior was counterintuitive, the team again turned to atomistic calculations.""We observed that the scroll formation was inhibited in the presence of a water layer,
therefore causing higher friction,"explained co-author Argonne computational nanoscientist Subramanian Sankaranarayanan. While the field of tribology has long been concerned with ways to reduce friction
-and thus the energy demands of different mechanical systems-superlubricity has been treated as a tough proposition.""Everyone would dream of being able to achieve superlubricity in a wide range of mechanical systems,
"Sumant added,"will be crucial in finding ways to reduce friction in everything from engines or turbines to computer hard disks and microelectromechanical systems."#
Argonne researchers work closely with researchers from hundreds of companies, universities, and federal, state and municipal agencies to help them solve their specific problems,
With employees from more than 60 nations, Argonne is managed by UCHICAGO Argonne, LLC for the U s. Department of energy's Office of Science.
For more information, please visit science. energy. gov. For more information, please click herecontacts: Jared Sagoffwriteemail('anl. gov','media';
'630-252-5593copyright Argonne National Laboratoryissuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.
The work was funded by the DOE's Office of Science. The Center for Nanoscale Materials and the Argonne Leadership Computing Facility are DOE Office of Science User Facilities.
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#Argonne scientists announce first room-temperature magnetic skyrmion bubbles: New ideas are bubbling up for more efficient computer memory Abstract:
Researchers at UCLA and the U s. Department of energy's Argonne National Laboratory announced today a new method for creating magnetic skyrmion bubbles at room temperature.
The bubbles, a physics phenomenon thought to be an option for more energy-efficient and compact electronics, can be created with simple equipment and common materials.
Skyrmions, discovered just a few years ago, are tiny islands of magnetism that form in certain materials.
If you wrapped one up into a sphere, its magnetic fields would point away in all different directions
Scientists found they could prod these skyrmions to move using electric currents and an idea was born:
could we use them to represent 1s and 0s in computer memory? Transistors, which form the basis of today's computing,
are tiny devices that stop the flow of electric current (off and on, 1 and 0). But there's a limit to how small we can make them,
and we're running up against it. Scientists want to find a way to create 1 and 0 by using physics phenomena that don't actually change the atomic structure of the material--for example,
very low temperatures (below 450 degrees Fahrenheit) with expensive equipment like spin-polarized scanning tunneling microscopes--not practical for making consumer devices like laptops,
Using the Center for Nanoscale Materials, a DOE Office of Science user facility at Argonne,
which a tiny layer of magnetic material is sandwiched between tantalum and tantalum-oxide layers. Long stripes of magnetic domains appear in the magnetic material on one side of a tiny channel.
When the scientists applied an electric current to the metal layers the stripes stretched through the channel
and broke into tiny spherical skyrmion bubbles on the other side--much like how children blow soap bubbles.
By running a smaller electric current through the system, they could make the skyrmions move.''These aren't exotic materials--they're widely used already in the magnetics industry,
The electric current needed to move the skyrmions is much lower than what's used in other experimental memory alternatives, like racetrack memory,
The research was supported by the U s. Department of energy's Office of Science, Basic energy Sciences, Materials science and engineering, and by the National Science Foundation.
The Center for Nanoscale Materials is a DOE Office of Science user facility.#####About Argonne National Laboratoryargonne National Laboratory seeks solutions to pressing national problems in science and technology.
Argonne researchers work closely with researchers from hundreds of companies, universities, and federal, state and municipal agencies to help them solve their specific problems,
With employees from more than 60 nations, Argonne is managed by UCHICAGO Argonne, LLC for the U s. Department of energy's Office of Science.
For more information, please visit science. energy. gov. For more information, please click herecontacts: Louise Lernerwriteemail('anl. gov','media';
'630-252-5526copyright Argonne National Laboratoryissuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.
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#Buckle up for fast ionic conduction Abstract: ETH material engineers found that the performance of ion-conducting ceramic membranes that are so important in industry depends largely on their strain
and buckling profiles. For the first time, scientists can now selectively manipulate the buckling profile, and thus the physical properties, allowing new technical applications of these membranes."
"Ionics, ion-based data processing and energy conversion, is the electronics of the future, "says Jennifer Rupp, a professor of Electrochemical Materials at ETH Zurich,
and therewith sums up her field of research. Together with her group, Rupp produces ceramic materials that can conduct charged atoms (ions), such as oxygen or lithium ions, very quickly.
for example, in lambda sensors of automotive catalytic converters and solid oxide fuel cells. The ETH professor is convinced that the industrial importance of these materials will even further increase-for example, in gas sensors, new classes of data storage and computer circuits,
and in the conversion of chemical energy into electrical energy and vice versa. One of the most important research questions in Rupp's field currently is how to optimise these materials,
which are produced usually in the form of a thin membrane, so that ions can move more quickly within them.
several doctoral students in her group demonstrated how ion transport depends greatly on the manner in
"explains Sebastian Schweiger, a doctoral student. In previous research, the material had been studied usually in the form of a thin film on a silicon substrate.
Yanuo Shi, another doctoral student in Rupp's group and first author of the recently published paper,
The material was then no longer flat but buckled due to changes of the internal stress in the layer during the etching process.
Shi attached microelectrodes to small pieces of these membranes to create tiny components that can be used to generate electricity from hydrogen or organic compounds and from oxygen in the air.
Electrode design affects buckling profilethe researchers also found that the arrangement of the electrodes affects the buckling profile of the ceramic membrane
and the material structure at the atomic level. In turn, this greatly influences the conductivity of the membrane for oxygen ions.
and ion conductivity of such membranes,"says Alexander Bork, another doctoral student. In recent decades, scientists have attempted mainly to influence the conductivity of such ion conductors by deliberately'contaminating'the material with certain foreign atoms-in technical terms,
"Even in earlier experiments, scientists noticed that power generation in micro solid oxide fuel cells varies greatly depending on the structure of such cells.
This supports the development of future gas sensors, ion-based data storage and micro energy converters, such as fuel cells-and potentially a range of other as yet unknown applications in the promising field of ionics.##
'41-792-900-697copyright ETH Zurichissuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.
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