the secondary component of the ink (used as a binder) is a biocompatible, biodegradable and hyperelastic polyester (PLG) that,
The ability to tune the elasticity of the material at will could prove important in manufacturing biomedical polymers that can,
In its present form, the dispenser is made mainly from a"super-tough steel alloy, "and can hold up to 60 tablets at once.
and had no toxic effects on living cells in the lab. The team also discovered that mixing the gel with silica nanoparticles gave it the ability to more effectively prevent bleeding,
super-luminescent hybrid crystal that they say will enable new records in power-to-light conversion efficiencies.
To create the crystal researchers in The Edward S. Rogers Sr. Department of Electrical & Computer engineering had to come up with a way to incorporate highly luminescent colloidal quantum dot nanoparticles into perovskite.
then grew the perovskite crystal around that shell so the two faces aligned, "said Dr. Zhijun Ning,
"When you try to jam two different crystals together, they often form separate phases without blending smoothly into each other,
"The resultant form is colored a black crystal whose light production depends on the perovskite matrix's ability to guide electrons into the quantum dots,
the researchers have designed also specifically their new crystal material to be suitable for use in solution-processing (that is the use of chemical deposition in a solution),
The device was assembled by taking a crystal of indium arsenide and placing 12 indium atoms laid out in a hexagonal shape on top of it, with a phthalocyanine molecule in the middle.
the central molecule is only weakly bound to the crystal surface beneath it, and this means that,
single electrons can tunnel between the surface of the crystal and the tip of the microscope.
#Metal foams could provide lightweight radiation shielding Radiation generally comes under the heading of"things you want to stay away from,
so a North carolina State university team is developing a new lightweight shielding based on foam metals that can block X-rays, gamma rays,
foam metals have been around for over a century. In its simplest form a foam is made by bubbling a gas through molten metal to form a light froth that cools into a lightweight matrix.
This produces a foam that is lighter than conventional metals, but has comparable strength. Foams can also be made by milling or 3d printing,
but whatever the method, they are expensive and difficult to manufacture, so their uses are restricted to very specialized applications, such as spacecraft or advanced cooling systems.
The new foam metal being developed by the NC State team led by Afsaneh Rabiei, a professor of mechanical and aerospace engineering, was created originally as a strong,
The result was a high-Z steel-steel foam, which is made a composite of stainless steel with small amount of tungsten formed into hollow spheres
and introduced into the steel matrix to make a foam that was less dense than stainless steel.
According to the team, the foam metal was subjected to multiple tests, which showed that it was effective in blocking X-rays, various forms of higher and lower energy gamma rays, and neutron radiation.
Compared against bulk materials it demonstrated the same shielding properties for high-energy gamma rays, though its density was lower.
"We are working to modify the composition of the metal foam to be even more effective than lead at blocking X-rays
In addition, the extraordinary mechanical and thermal properties of composite metal foams, and their energy absorption capabilities, make the material a good candidate for various nuclear structural applications. n
which is a metal alloy of nickel and titanium that can be moulded at a set curvature.
#Synthetic material mimics coral's ocean-cleaning attributes Researchers from China's Anhui Jianzhu University have developed a synthetic substance that mimics coral's ability to collect harmful heavy metals from water.
and even low levels of heavy metals can prove fatal. While this attribute is unfortunate for the coral,
the word changed from blue to red. a plastic dish imprinted with BMP-2 proteins that stimulate bone growth to control the direction of tissue growth. sodium ampicillin printed on a bacterial culture printed to test the effectiveness of a topographical distribution of the antibiotic
A substance called magnetite that lies within the zircon crystals contains information about the magnetic field record at the time the minerals cooled from their molten state a process that took over a billion years.
That coated metal foil then has to be dried in a series of ovens, before it sent off for further processing,
but hey had to have so much plastic to make that process possible, by the time theye done, they have a ton of inactive material,
By placing a positive or negative electrical voltage across the interface between the liquid metal and an electrolyte,
they found that they could cause the liquid metal to spread (flow into a capillary)
and radiation pattern. sing a liquid metal such as eutectic gallium and indium that can change its shape allows us to modify antenna properties such as frequency more dramatically than is possible with a fixed conductor,
The positive voltage lectrochemically deposits an oxide on the surface of the metal that lowers the surface tension,
These differences in surface tension dictate which direction the metal will flow. This advance makes it possible to emove
or regenerate enough of the xide skinwith an applied voltage to make the liquid metal flow into or out of the capillary.
which is much like an electrochemical pump for the liquid metal, Adams noted. Although antenna properties can be reconfigured to some extent by using solid conductors with electronic switches,
the liquid metal approach greatly increases the range over which the antenna operating frequency can be tuned. ur antenna prototype using liquid metal can tune over a range of at least two times greater than systems using electronic switches,
he pointed out. Previous liquid-metal designs typically required external pumps that can be integrated easily into electronic systems.
Liquid metal systems ield a larger range of tuning than conventional reconfigurable antennas, and the same approach can be applied to other components such as tunable filters,
In the long term, Adams and colleagues hope to gain greater control of the shape of the liquid metal in two-dimensional surfaces to obtain nearly any desired antenna shape. his would enable enormous flexibility in the electromagnetic properties of the antenna
and you get a fabric with 100 times the strength of reinforced steel but that is as soft and flexible as the most comfortable fabrics.
Still, Silicon valley is betting that Bolt silk could supplant petroleum-based textiles such as polyester, Lycra,
an aerogel, allowed them to make 3d structures, something that has been pursued for more than a decade.
To create their innovative wood-based aerogel material, scientists from KTH Royal Institute of technology and Stanford university started off by breaking down cellulose,
a long chain of sugar molecules found in plant cell walls that bestows wood with its strength.
You can touch it without it breaking. he team then coated this spongy material with an ink that conducts electricity within the aerogel,
Max Hamedi and Wallenberg Wood Science Center Via IFLSCIENC g
#Scientists create riction-freematerial US Department of energy Scientists at the Argonne National Laboratory have found a way to use diamonds
The conducting elastomers can be fabricated in diameters ranging from the very small about 150 microns
she said. he only exotic component is the carbon nanotube aerogel sheet used for the fiber sheath. o
If crash helmets could self heal their durability could be increased massively (AFP/Getty) His team specialises in modifying carbon fibre composite materials,
Sports equipment such as golf clubs are made often from carbon fibre composites (Getty) Laboratory tests have established that the material is
at a elatively low costthe Bristol team advances could be applied to all kinds of carbon fibre composite materials meaning that self-healing golf clubs, tennis racquets,
when researchers at the University of Illinois in the US created a plastic capable of repairing itself
Last year, the same team created a polymer, inspired by the human blood-clotting system, which patched holes up to 3cm wide.
as they are damaged often by bird strikes (AFP/Getty) Professor Wass team at the University of Bristol has been focusing on the creation of self-healing versions of carbon fibre composite materials,
*The Airbus a380 passenger jet has a carbon fibre reinforced plastic fuselage for a lower fuel consumption. The researchers claim the new technology would allow wings to fix themselves in mid-flight,
*Sports equipment such as tennis racquets, fishing rods and golf clubs are made often from carbon fibre composites for the same reasons i
The composites they tested showed elasticity and stiffness comparable to knee-joint tissue, as well as the ability to support the growth
The secret ingredient in Shah ink is a mix of biocompatible elastomer and fast-evaporating solvents.
They expect that this platform of 3d-printed programmable release capsules will be useful in applications such as dynamic tissue engineering, 3d-printed drug delivery systems, synthetic/artificial tissues, programmable matter,
we render these capsules stimuli-responsive by incorporating gold nanorods into the polymer shell, allowing for highly selective photothermal rupture
which are supported by a steel frame. Natural gas on one side of the cell, and air on the other, says Rogers,
and encased in a sphere of silica and a polymer. The researchers'method of making the stars ensures that all of the particles are nearly identical
which lasers harden layers of liquid plastic, or resin, into three-dimensional shapes. This technique sets OWL's printers apart from other 3d printers on the market, such as Makerbot's Replicator or the Ultimaker 2, that use a process known as fused deposition modeling (FDM), not SLA.
In FDM, heated plastic is released layer by layer onto a platform to create a 3d object
The company's 3d printers have two extruders one that prints in conventional plastic filaments and another that squirts out highly conductive ink."
The flying toy was built in layers the structure of the device was printed in plastic with cavities carved out for the control logic board and the motors.
(which takes the place of wires) on top of the plastic, connecting these electrical components. The ink,
The electronics that ecoatm reclaims can be mined for the valuable and rare metals they contain.
and features a large blue-hued crystal embedded with sensors. Customers can buy a pendant necklace
"The clear crystal version of the Shine can't absorb quite as much light as the blue version,
and it is nearly impossible for these printers to produce semiconductors or single crystalline metals,
springy metal interconnect coils and antennas for soft electronic devices designed to integrate with the human body,
a form of carbon famous for being stronger than steel and more conductive than copper, can add another wonder to the list:
When billions of these spores were glued together on several plastic tapes called HYDRAS (hygroscopic-driven artificial muscles),
Yet-Ming Chiang, the Kyocera Professor of Ceramics at MIT, was of the view that the existing technology is not perfect
#Polymide aerogel combines toughness with light weight Claimed to be the first commercially available polyimide aerogel,
and toughness properties of plastic films with the insulation properties of aerogels, says Blueshift International Materials.
The 100%polyimide polymer construction eliminates dusting and the requirement for dangerous handling protocols, making it clean and safe.
It can withstand extreme high temperatures as well as cryogenic temperatures, providing aerogel-level thermal conductivity and excellent acoustic insulation.
and density is approximately 85%lower than traditional polyimides. It is provided in rolls up to 3ft wide and in varying lengths,
The energy-damping bellow is extruded using a Dupont Hytrel TPC-ET polyester thermoplastic elastomer with a tensile elastomer element made of a soft material with lower stiffness to deliver a low force response to the system.
This electron microscope image shows tiny nanoparticles of bismuth ferrite embedded in a polymer film. The film enhances the unique electric and magnetic properties of bismuth ferrite and preserves these properties even when bent.
The researchers describe the film in a paper published in Applied Physics Letters AIP Publishing.
and embedding them in flexible plastics. A team of physicists and engineers from South korea took the conventional approach of flexible design
and embed them in flexible plastics. The team used bismuth ferrite (Bifeo3. This material's electronic properties can be controlled by a magnetic field.
The researchers synthesized nanoparticles of bismuth ferrite and mixed them into a polymer solution. The solution was dried in a series of steps at increasing temperatures to produce a thin flexible film.
When the researchers tested the electric and magnetic properties of the film they found that their new material not only preserved
but improved the properties of bulk bismuth ferrite. Furthermore the improved properties remained even as the film was curved into a cylindrical shape.
Bulk bismuth ferrite has crucial problems for some applications such as a high leakage current which hinders the strong electric properties said Youngpak Lee a professor at Hanyang University in Seoul South korea.
Mixing nanoparticles of bismuth ferrite into a polymer improved the current-leakage problem and also gave the film flexible stretchable properties.
Multi-ferroric materials such as this could be used in high-density energy efficient memory and switches in wearable devices.
They also tested different shaped devices made out of glass, polystyrene, stainless steel, and polycaprolactone, a polyester, showing that the shape matters as well as the size e
#Injectable Hydrogel Material Serves as Scaffold to Heal Wounds At UCLA researchers have designed an injectable hydrogel scaffold that promotes wound healing by serving as a 3d platform within which new tissue can grow.
The corticosteroid DEX, a powerful ameliorator of inflammation, was released from the polymer by external application of an electromagnetic field for 2 h/day for a week.
and is particularly difficult for young children that don understand the purpose of it All the new technology relies on a special silica glass that has ions throughout that fluoresce in infrared in response to laser light.
and the chipsclear polymer allows scientists to watch the small-scale biological processes in real time. he organs-on-chips allow us to see biological mechanisms
In its current prototype, the elongated cone is made from a composite of fiberglass and carbon fiber,
The shortcoming of conventional honeycombs is that they lose their full protective properties after only one impact due to plastic buckling of the material.
He assembles sandwiches of graphene and boron nitride with various horizontal orientations.""The tricks we would use were making cleaner devices,
and hexagonal boron nitride created a unique bandgap in graphene, which could be a precursor to developing the material for functional transistors.
Hofstadter butterfly Graphene and boron nitride layers each have arranged atoms in a hexagonal, or six-sided, pattern.
When the lattice arrangement of graphene and hexagonal boron nitride layers are aligned closely, and the samples are exposed to a large out-of-plane magnetic field,
the graphene has to be aligned very closely to hexagonal boron nitride. When it's closely aligned,
"Gong and her students also have been based studying bio polymers for more than a decade. CNF offers many benefits over current chip substrates, she says."
"The advantage of CNF over other polymers is that it's a bio-based material and most other polymers are based petroleum polymers.
"And, compared to other polymers, CNF actually has a relatively low thermal expansion coefficient.""The group's work also demonstrates a more environmentally friendly process that showed performance similar to existing chips.
Scientists used revolutionary nanotechnology to work on small polymer layers inside implants which measure between 1 and 100 nanometers (nm) a human hair is approximately 100,
the risk of deep bone infection is reduced substantially. ur research shows that applying small quantities of antibiotic to a surface between the polymer layers
A number of crystals produce this effect, called frequency doubling or harmonic generation, to various degrees.
The strongest frequency doubler previously known is the synthetic crystal beta barium borate, but the nano-spirals produce four times more blue light per unit volume.
Because of the tiny quantities of metal actually used, they can be made inexpensively out of precious metals,
and energy to move around until it found its preferred spot in the metal crystalline structure.
the highest strengths ever measured in that crystal structure of metal so theye going to be attractive to use in all sorts of devices
Nanofibers-polymer filaments only a couple of hundred nanometers in diameter have a huge range of potential applications, from solar cells to water filtration to fuel cells.
a polymer solution is pumped through a small nozzle, and then a strong electric field stretches it out.
The cones are dipped in a polymer solution, and the electric field causes the solution to travel to the top of the cones,
and a dissolved polymer. When an electrode is mounted opposite the sawteeth and a voltage applied between them,
the water-ethanol mixture streams upward, dragging chains of polymer with it. The water and ethanol quickly dissolve, leaving a tangle of polymer filaments opposite each emitter, on the electrode.
The researchers were able to pack 225 emitters, several millimeters long, on a square chip about 35 millimeters on a side.
Nanofibers-polymer filaments only a couple of hundred nanometers in diameter have a huge range of potential applications, from solar cells to water filtration to fuel cells.
a polymer solution is pumped through a small nozzle, and then a strong electric field stretches it out.
The cones are dipped in a polymer solution, and the electric field causes the solution to travel to the top of the cones,
and a dissolved polymer. When an electrode is mounted opposite the sawteeth and a voltage applied between them,
the water-ethanol mixture streams upward, dragging chains of polymer with it. The water and ethanol quickly dissolve, leaving a tangle of polymer filaments opposite each emitter, on the electrode.
The researchers were able to pack 225 emitters, several millimeters long, on a square chip about 35 millimeters on a side.
There is currently a big push to make lower-cost solar cells using plastics rather than silicon,
The two components that make the UCLA-developed system work are a polymer donor and a nanoscale fullerene acceptor.
The polymer donor absorbs sunlight and passes electrons to the fullerene acceptor; the process generates electrical energy.
The plastic materials, called organic photovoltaics, are organized typically like a plate of cooked pasta a disorganized mass of long, skinny polymer paghettiwith random fullerene eatballs.
because the electrons sometimes hop back to the polymer spaghetti and are lost. The UCLA technology arranges the elements more neatly like small bundles of uncooked spaghetti with precisely placed meatballs.
The fullerenes inside the structure take electrons from the polymers and toss them to the outside fullerene
which can effectively keep the electrons away from the polymer for weeks. hen the charges never come back together,
There is currently a big push to make lower-cost solar cells using plastics rather than silicon,
The two components that make the UCLA-developed system work are a polymer donor and a nanoscale fullerene acceptor.
The polymer donor absorbs sunlight and passes electrons to the fullerene acceptor; the process generates electrical energy.
The plastic materials, called organic photovoltaics, are organized typically like a plate of cooked pasta a disorganized mass of long, skinny polymer paghettiwith random fullerene eatballs.
because the electrons sometimes hop back to the polymer spaghetti and are lost. The UCLA technology arranges the elements more neatly like small bundles of uncooked spaghetti with precisely placed meatballs.
The fullerenes inside the structure take electrons from the polymers and toss them to the outside fullerene
which can effectively keep the electrons away from the polymer for weeks. hen the charges never come back together,
Surface plasmons are confined to the surface of a metal. In order to create wakes through them, Capasso's team designed a faster-than-light running wave of charge along a one-dimensional metamaterialike a powerboat speeding across a lake.
which are coated with a charged polymer layer that helps them adhere to the target microbes,
and Staphylococcus epidermis, a bacterium that can cause harmful biofilms on plastics-like catheters-in the human body.
which are coated with a charged polymer layer that helps them adhere to the target microbes,
and Staphylococcus epidermis, a bacterium that can cause harmful biofilms on plastics-like catheters-in the human body.
Typically, scientists who study these circuits have to choose between injecting drugs through bulky metal tubes
Bardeen said. he key to this research is the hybrid composite material combining inorganic semiconductor nanoparticles with organic compounds.
Put simply, the inorganics in the composite material take light in; the organics get light out. esides solar energy,
Bardeen said. he key to this research is the hybrid composite material combining inorganic semiconductor nanoparticles with organic compounds.
Put simply, the inorganics in the composite material take light in; the organics get light out. esides solar energy,
Semiconductors, usually a solid chemical element or compound arranged into crystals, are used widely for computer chips or for light generation in telecommunication systems.
Liu said. e have not been able to grow different semiconductor crystals together in high enough quality,
High quality crystals can be grown even with large mismatch of different lattice constants. Recognizing this unique possibility early on,
and then convert the materials into the right alloy contents to emit the blue color.
Metals at atomic scale March 2nd, 2015waterloo invention advances quantum computing research: New device, which will be used in labs around the world to develop quantum technologies,
fine-pitch vertical interconnects (micro pillar with solder) and specific finishing for 3d integration like under-bump metallurgy (UBM).
and other novel lower dimensional materials. 2d materials such as graphene and few-layer transition metal dichalcogenides (TMDCS) have been attracting a lot of research interest in recent years
which include a tensile strength 200 times stronger than steel and an electrical mobility that is two to three orders of magnitude better than silicon.
and N-type Organic semiconductor Crystals Using the Plating Method March 15th, 2015advantest to Exhibit at SEMICON China in Shanghai, China, March 17-19:
Rice researchers'theory combines strength, stiffness and toughness of composites into a single design map March 16th, 2015symmetry matters in graphene growth:
or continuous formation of polymer nanofibers and other nanomaterials in the bulk of a sheared fluid medium is introduced.
Creating large amounts of polymer nanofibers dispersed in liquid is a challenge that has vexed researchers for years.
But engineers and researchers at North carolina State university and one of its start-up companies have reported now a method that can produce unprecedented amounts of polymer nanofibers
describe the method that allows them to fabricate polymer nanofibers on a massive scale. The method-fine-tuned after nearly a decade of increasing success in producing micro
-and nanoparticles of different shapes-works as simply as dropping liquid solution of a polymer in a beaker containing a spinning cylinder.
Glycerin-a common and safe liquid that has many uses-is used to shear the polymer solution inside the beaker along with an antisolvent like water.
the researchers created polymer microrods, which could have various useful applications in foams and consumer products."
"Depending on the concentrations of liquids, polymers and antisolvents, you can create multiple types of nanomaterials of different shapes and sizes.""
which are tiny crystals of a semiconductor material that can emit single photons of light.
"Any time you use a nanoscale emitter to perform super-resolution imaging near a metal
Rice researchers'theory combines strength, stiffness and toughness of composites into a single design map March 16th, 2015new remote control for molecular motors:
which is one of a family of layered ceramics discovered two decades ago by Michel Barsoum, Phd,
and N-type Organic semiconductor Crystals Using the Plating Method Tanaka Holdings, Co.,Ltd. Head office: Chiyoda-ku, Tokyo;
EEJA), which operates the Tanaka Precious metals Group's plating business, together with Professor Junichi Takeya of the University of Tokyo's Graduate school of Frontier Sciences, has achieved the world's first success in the development of technology for the simultaneous formation of contact electrodes for p-type and n-type*1
which is achieved by applying a silver catalyst solution for plating that includes silver nanoparticles to an organic semiconductor crystal, after
In order to stably form electrodes for organic semiconductor crystals, EEJA developed new gold nanoparticles as an electroless plating catalyst.
*1 p-type organic semiconductors and n-type organic semiconductors Organic compounds crystalized with uniform crystal orientation acquire the characteristics of a semiconductor.
The metal that is easier to be injected with a charge varies depending on whether it is a p-type or n-type.*
However, because the electrodes are formed after forming the organic semiconductor crystal, the organic semiconductor is damaged easily, and contact electrodes are difficult to form.*
Holding company of Tanaka Precious metals) Headquarters: 22f, Tokyo Building, 2-7-3 Marunouchi, Chiyoda-ku, Tokyo Representative:
import and export of precious metals (platinum, gold, silver, and others) and various types of industrial precious metals products.
Recycling and refining of precious metals. Website: http://www. tanaka. co. jp/english (Tanaka Precious metals), http://pro. tanaka. co. jp/en (Industrial products) Electroplating Engineers of Japan Ltd.
EEJA) Head office: 5-50 Shinmachi, Hiratsuka-shi, Kanagawa Representative: Koichiro Tanaka, President & CEO Established:
1965 Capital: 100 million yen Employees: 94 (FY2013) Sales: 23,360 million yen (FY2013) Areas of Business:
1. Development, production, sales and export of Sel-Rex precious metal and base metal plating solutions, additives,
www. eeja. com/About the Tanaka Precious metals Established in 1885, the Tanaka Precious metals has built a diversified range of business activities focused on the use of precious metals.
On April 1, 2010, the group was reorganized with Tanaka Holdings Co.,Ltd. as the holding company (parent company) of the Tanaka Precious metals.
In addition to strengthening corporate governance, the company aims to improve overall service to customers by ensuring efficient management and dynamic execution of operations.
Tanaka Precious metals is committed, as a specialist corporate entity, to providing a diverse range of products through cooperation among group companies.
Tanaka Precious metals is in the top class in Japan in terms of the volume of precious metal handled
and stably supplied industrial precious metals, in addition to providing accessories and savings commodities utilizing precious metals. As precious metal professionals, the Group will continue to contribute to enriching people's lives in the future.
The eight core companies in the Tanaka Precious metals are as follows. -Tanaka Holdings Co.,Ltd. pure holding company)- Tanaka Kikinzoku Kogyo K. K.-Tanaka Kikinzoku Hanbai K. K.-Tanaka Kikinzoku International K. K.-Tanaka Denshi Kogyo
K. K.-Electroplating Engineers of Japan, Limited-Tanaka Kikinzoku Jewelry K. K.-Tanaka Kikinzoku Business Service K. K K
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