Advertisement
Nanotechnology
Subscribe to Nanotechnology

The Lead

A silver lining

April 24, 2015 7:43 am | by Julie Cohen, Univ. of California, Santa Barbara | News | Comments

The silver used by Beth Gwinn’s research group at the Univ. of California, Santa Barbara, has value far beyond its worth as a commodity, even though it’s used in very small amounts. The group works with the precious metal to create nanoscale silver clusters with unique fluorescent properties. These properties are important for a variety of sensing applications including biomedical imaging.

Scientists use nanoscale building blocks and DNA “glue” to shape 3-D superlattices

April 23, 2015 8:17 am | by Karen McNulty Walsh, Brookhaven National Laboratory | News | Comments

Taking child's play with building blocks to a whole new level, the nanometer scale, scientists...

Nanophotonics with ultracold atoms for simulating quantum many-body systems

April 21, 2015 10:46 am | by Max Planck Society | News | Comments

Ultracold atoms in the so-called optical lattices, which are generated by crosswise...

Electronic device performance enhanced with new transistor encasing method

April 21, 2015 7:50 am | by Austin Keating, News Bureau Intern, Univ. of Illinois, Urbana-Champaign | News | Comments

A more effective method for closing gaps in atomically small wires has been developed by Univ....

View Sample

FREE Email Newsletter

Deadline Extended for 2015 R&D 100 Award Entries

April 20, 2015 1:53 pm | by Lindsay Hock, Editor | News | Comments

The editors of R&D Magazine have announced a deadline extension for the 2015 R&D 100 Awards entry process until May 18, 2015. The R&D 100 Awards have a 50 plus year history of awarding the 100 most technologically significant products of the year.

Advances in molecular electronics

April 20, 2015 10:27 am | by Helmholtz-Zentrum Dresden-Rossendorf | News | Comments

Scientists at the Helmholtz-Zentrum Dresden-Rossendorf and the Univ. of Konstanz are working on storing and processing information on the level of single molecules to create the smallest possible components that will combine autonomously to form a circuit. As recently reported in Advanced Science, the researchers can switch on the current flow through a single molecule for the first time with the help of light.

Improving rechargeable batteries with MoS2 nano “sandwich”

April 17, 2015 9:00 am | by Jennifer Tidball, Kansas State Univ. | News | Comments

The key to better cell phones and other rechargeable electronics may be in tiny "sandwiches" made of nanosheets, according to mechanical engineering research from Kansas State Univ. The research team are improving rechargeable lithium-ion batteries. The team has focused on the lithium cycling of molybdenum disulfide, or MoS2, sheets, which Singh describes as a "sandwich" of one molybdenum atom between two sulfur atoms.

Advertisement

Major advance in artificial photosynthesis poses win-win for the environment

April 16, 2015 12:43 pm | by Lynn Yarris, Lawrence Berkeley National Laboratory | News | Comments

A potentially game-changing breakthrough in artificial photosynthesis has been achieved with the development of a system that can capture carbon dioxide emissions before they are vented into the atmosphere and then, powered by solar energy, convert that carbon dioxide into valuable chemical products, including biodegradable plastics, pharmaceutical drugs and even liquid fuels.

Novel nanoparticles could save soldiers’ lives after explosions

April 16, 2015 8:11 am | by American Chemical Society | News | Comments

Soldiers who suffer internal trauma from explosions might one day benefit from a new treatment now under development. Researchers report in ACS Macro Letters that injecting a certain type of nanoparticle helped reduce lung damage in rats experiencing such trauma. The potential treatment, which could be given at the most critical moment immediately after a blast, could save lives.

Cobalt film a clean-fuel find

April 16, 2015 7:51 am | by Mike Williams, Rice Univ. | News | Comments

A cobalt-based thin film serves double duty as a new catalyst that produces both hydrogen and oxygen from water to feed fuel cells, according to scientists at Rice Univ. The inexpensive, highly porous material may have advantages as a catalyst for the production of hydrogen via water electrolysis. A single film far thinner than a hair can be used as both the anode and cathode in an electrolysis device.

Nanotubes with two walls have singular qualities

April 15, 2015 8:21 am | by Mike Williams, Rice Univ. | News | Comments

Rice Univ. researchers have determined that two walls are better than one when turning carbon nanotubes into materials like strong, conductive fibers or transistors. Rice materials scientist Enrique Barrera and his colleagues used atomic-level models of double-walled nanotubes to see how they might be tuned for applications that require particular properties.

Taking aircraft manufacturing out of the oven

April 14, 2015 8:03 am | by Jennifer Chu, MIT News Office | News | Comments

Composite materials used in aircraft wings and fuselages are typically manufactured in large, industrial-sized ovens: Multiple polymer layers are blasted with temperatures up to 750 F, and solidified to form a solid, resilient material. Using this approach, considerable energy is required first to heat the oven, then the gas around it, and finally the actual composite.

Advertisement

Gold by special delivery intensifies cancer-killing radiation

April 14, 2015 7:47 am | by Kevin Stacey, Brown Univ. | News | Comments

Researchers have demonstrated a promising new way to increase the effectiveness of radiation in killing cancer cells. The approach involves gold nanoparticles tethered to acid-seeking compounds called pHLIPs. The pHLIPs (pH low-insertion peptides) home in on high acidity of malignant cells, delivering their nanoparticle passengers straight to the cells’ doorsteps.

Graphene looks promising for future spintronic devices

April 10, 2015 7:39 am | by Chalmers Univ. of Technology | News | Comments

Researchers at Chalmers Univ. of Technology have discovered that large area graphene is able to preserve electron spin over an extended period, and communicate it over greater distances than had previously been known. This has opened the door for the development of spintronics, with an aim to manufacturing faster and more energy-efficient memory and processors in computers.

How complex carbon nanostructures form

April 9, 2015 4:46 pm | by Jeff Sossamon, Univ. of Missouri-Columbia | News | Comments

Carbon nanotubes (CNTs) are microscopic tubular structures that engineers “grow” through a process conducted in a high-temperature furnace. The forces that create the CNT structures known as “forests” often are unpredictable and are mostly left to chance. Now, a Univ. of Missouri researcher has developed a way to predict how these complicated structures are formed.

Optical method for producing high-res, 3-D images of nanoscale objects

April 8, 2015 8:07 am | by Bjorn Carey, Stanford Univ. | Videos | Comments

To design the next generation of optical devices, ranging from efficient solar panels to LEDs to optical transistors, engineers will need a 3-D image depicting how light interacts with these objects on the nanoscale. Unfortunately, the physics of light has thrown up a roadblock in traditional imaging techniques: The smaller the object, the lower the image's resolution in 3-D.

Future electronics based on carbon nanotubes

April 7, 2015 11:16 am | by Jason Socrates Bardi, American Institute of Physics | News | Comments

The exceptional properties of tiny molecular cylinders known as carbon nanotubes have tantalized researchers for years because of the possibility they could serve as a successors to silicon in laying the logic for smaller, faster and cheaper electronic devices.

Advertisement

Tunneling across a tiny gap

April 7, 2015 11:07 am | by Jennifer Chu, MIT News Office | News | Comments

Conduction and thermal radiation are two ways in which heat is transferred from one object to another: Conduction is the process by which heat flows between objects in physical contact, such as a pot of tea on a hot stove, while thermal radiation describes heat flow across large distances, such as heat emitted by the sun. These two fundamental heat-transfer processes explain how energy moves across microscopic and macroscopic distances.

Optics, nanotechnology combined to create low-cost sensor for gases

April 6, 2015 8:18 am | by David Stauth, Oregon State Univ. | News | Comments

Engineers have combined innovative optical technology with nanocomposite thin films to create a new type of sensor that is inexpensive, fast, highly sensitive and able to detect and analyze a wide range of gases. The technology might find applications in everything from environmental monitoring to airport security or testing blood alcohol levels.

Water makes wires even more nano

April 6, 2015 7:35 am | by Mike Williams, Rice Univ. | News | Comments

Water is the key component in a Rice Univ. process to reliably create patterns of metallic and semiconducting wires less than 10 nm wide. The technique by the Rice lab of chemist James Tour builds upon its discovery that the meniscus, the curvy surface of water at its edge, can be an effective mask to make nanowires.

Engineers invent 2-D liquid

April 2, 2015 11:55 am | by Evan Lerner, Univ. of Pennsylvania | News | Comments

Where water and oil meet, a 2-D world exists. This interface presents a potentially useful set of properties for chemists and engineers, but getting anything more complex than a soap molecule to stay there and behave predictably remains a challenge. Recently, a team from the Univ. of Pennsylvania has shown how to do just that.

Quick-charging hybrid supercapacitors

April 1, 2015 1:11 pm | by Shaun Mason, Univ. of California, Los Angeles | News | Comments

The dramatic rise of smartphones, tablets, laptops and other personal and portable electronics has brought battery technology to the forefront of electronics research. Even as devices have improved by leaps and bounds, the slow pace of battery development has held back technological progress. Now, researchers have successfully combined two nanomaterials to create a new energy storage medium.

Nanoscale speed bump could regulate plasmons for high-speed data flow

April 1, 2015 12:08 pm | by Mark Esser, NIST | News | Comments

The name sounds like something Marvin the Martian might have built, but the “nanomechanical plasmonic phase modulator” is not a doomsday device. Developed by a team of government and university researchers, including physicists from NIST, the innovation harnesses tiny electron waves called plasmons. It’s a step towards enabling computers to process information hundreds of times faster than today’s machines.

Natural nanocrystals shown to strengthen concrete

April 1, 2015 7:40 am | by Emil Venere, Purdue Univ. | News | Comments

Cellulose nanocrystals derived from industrial byproducts have been shown to increase the strength of concrete, representing a potential renewable additive to improve the ubiquitous construction material. The cellulose nanocrystals could be refined from byproducts generated in the paper, bioenergy, agriculture and pulp industries.

Roll up your screen and stow it away?

March 30, 2015 11:38 am | by George Hunka, Tel Aviv Univ. | News | Comments

From smartphones and tablets to computer monitors and interactive TV screens, electronic displays are everywhere. As the demand for instant, constant communication grows, so too does the urgency for more convenient portable devices, especially devices, like computer displays, that can be easily rolled up and put away, rather than requiring a flat surface for storage and transportation.

Prototype nanoneedles generate new blood vessels in mice

March 30, 2015 11:20 am | by Imperial College London | News | Comments

Scientists have developed tiny nanoneedles that have successfully prompted parts of the body to generate new blood vessels, in a trial in mice. The researchers, from Imperial College London and Houston Methodist Research Institute, hope their nanoneedle technique could ultimately help damaged organs and nerves to repair themselves and help transplanted organs to thrive.

Nanoscale “worms” provide new route to nano-necklace structures

March 30, 2015 8:11 am | by John Toon, Georgia Institute of Technology | News | Comments

Researchers have developed a novel technique for crafting nanometer-scale necklaces based on tiny star-like structures threaded onto a polymeric backbone. The technique could provide a new way to produce hybrid organic-inorganic shish kebab structures from semiconducting, magnetic, ferroelectric and other materials that may afford useful nanoscale properties.

Solving molybdenum disulfide’s “thin” problem

March 30, 2015 7:55 am | by Amanda Morris, Northwestern Univ. | News | Comments

The promising new material molybdenum disulfide has an inherent issue that’s steeped in irony. The material’s greatest asset, its monolayer thickness, is also its biggest challenge. Monolayer molybdenum disulfide’s ultra-thin structure is strong, lightweight and flexible, making it a good candidate for many applications, such as high-performance, flexible electronics.

Surface-modified nanoparticles endow coatings with combine properties

March 27, 2015 9:56 am | by Leibniz Institute for New Materials | News | Comments

Nanoparticles are specifically adapted to the particular application by Small Molecule Surface Modification. Thereby surfaces of work pieces or moldings are expected to exhibit several different functions at one and the same time. Fabricators and processors alike demand consistently high quality for their intermediate and final products. The properties of these goods usually also have to meet specific requirements.

X
You may login with either your assigned username or your e-mail address.
The password field is case sensitive.
Loading