Physicists find new explanation for key experiment
Scientists publish findings on spin caloritronics and are the first to apply measurement methods in the field.
Sep 23rd, 2015
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Nanotechnology News – Latest Headlines
Frustrated magnets point towards new memory
Theoretical physicists have discovered that so-called 'frustrated magnets' can produce skyrmions, tiny magnetic vortices that may be used in memory storage. This discovery opens up a new class of materials for scientists working on 'skyrmionics', which aims to build memory and logic devices based on skyrmions.
Sep 23rd, 2015
Read moreQuantum dots light up under strain
Scientists have demonstrated a radically new approach to manipulate the light emission of quantum dots.
Sep 23rd, 2015
Read moreTiny carbon-capturing motors could help clean up carbon dioxide pollution in the oceans
Nanoengineers have designed enzyme-functionalized micromotors that rapidly zoom around in water, remove carbon dioxide and convert it into a usable solid form.
Sep 23rd, 2015
Read moreMolecular diagnostics at home: Chemists design rapid, simple, inexpensive tests using DNA
Electrochemical test's sensing principle may be generalized to many different targets, leading to inexpensive devices that could detect dozens of disease markers in less than 5 minutes.
Sep 23rd, 2015
Read moreLow-cost nanomembrane a new option for high-temperature fuel cells
Researchers produced simple and cost-effective nanomembranes that can be used in the production of high temperature fuel cells.
Sep 23rd, 2015
Read moreUltrathin graphene oxide lens could revolutionise next-gen devices
Researchers have developed an ultrathin, flat, ultra-lightweight graphene oxide optical lens with unprecedented flexibility.
Sep 23rd, 2015
Read moreCharacterizing the forces that hold everything together
Physicists have unveiled a project known as Gecko Hamaker, a new computational and modeling software tool plus an open science database to aid those who design nano-scale materials.
Sep 22nd, 2015
Read more3D-printed scaffolds could enable the release biomolecules into the body with exceptional control (w/video)
Tissue development is guided by gradients of biomolecules that direct the growth, migration, and differentiation of cells. Biomedical engineers are interested in recreating these developmental gradients in adults to aid the growth of new tissue in areas that have sustained damage. Now, researchers are one step closer to this goal thanks to the creation of new 3D-printed scaffolds that enable researchers to release biomolecules into the body with exceptional control.
Sep 22nd, 2015
Read morePioneering research develops new way to capture light - for the computers of tomorrow
The key breakthrough will allow large quantities of data to be stored directly on an integrated optical chip, rather than being processed and stored electronically, as happens today.
Sep 22nd, 2015
Read moreCarbon nanotubes as a trap for greenhouse gases
Vertically aligned carbon nanotubes can chemically trap and store greenhouse gases more effectively than typical adsorption materials.
Sep 22nd, 2015
Read moreNew graphene oxide biosensors may accelerate nanotechnology to cure HIV and cancer
Researchers have devised a novel type of graphene oxide-based biosensor that could potentially significantly speed up the process of drug development. The outstanding properties of this carbon allotrope help to improve significantly the biosensing sensitivity, which in future may enable the development of new drugs and vaccines against many dangerous diseases including HIV, hepatitis and cancer.
Sep 22nd, 2015
Read moreNanoscaffolds as a modular platform for biosensor assembly
Modern nanofabrication methods have contributed to recent progress in biosensor technology, but challenges remain in developing biosensor assembly platforms that meet important preparation and performance criteria. Now, a team of researchers has developed a new approach that meets at least three of these criteria: system modularity, good signal amplification, and easy purification.
Sep 22nd, 2015
Read moreFirst circularly polarized light detector on a silicon chip
Invention of the first integrated circularly polarized light detector on a silicon chip opens the door for development of small, portable sensors that could expand the use of polarized light for drug screening, surveillance, optical communications and quantum computing, among other potential applications.
Sep 22nd, 2015
Read moreLaser pulses for ultrahigh molecular sensitivity
Scientists have developed a worldwide unique broadband and coherent infrared light source. The record peak brilliance of the light source makes it an ultrasensitive detector for the infrared molecular finger print region, ideal to detect minute changes in the spectral features from cells or tissue which are tell-tale signs of DNA mutation or the presence of cellular malfunctions such as cancer.
Sep 22nd, 2015
Read moreDiverse set of Turing nanopatterns coat corneae of insects
In 1952, the legendary British mathematician and cryptographer Alan Turing proposed a model, which assumes formation of complex patterns through chemical interaction of two diffusing reagents. Russian scientists managed to prove that the corneal surface nanopatterns in 23 insect orders completely fit into this model.
Sep 22nd, 2015
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