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| 2014-04-14 | Plasmonic resonators enable circuits at THz frequencies The resonators capture light in the form of plasmons, and are bridged by a layer of molecules that switches on the quantum plasmonic-tunnelling effects. |
| 2013-02-12 | Plasmonic resonator arrays key to future reflective displays Researchers at the University of Michigan the e-readers of the future could use plasmonic resonator arrays as wide field of view colour filters for reflected light. |
| 2013-02-28 | Imec, partners reveal plasmonic enhancement development Imec and its project managers have worked on a light trapping strategy which uses metal nanostructures that allow plasmons to increase the absorption within the solar cell structure. |
| 2015-07-29 | 90GHz nanopatch plasmonic antennas surpass lasers Researchers from Duke University created a structure that boost the spontaneous emission rate by 880-times while enhancing the fluorescence intensity by 2300-times while maintaining a high efficiency. |
| 2013-07-23 | Researchers develop low-cost sol'n polymer LEDs, PV cells A team of researchers from Ulsan National Institute of Science and Technology created a plasmonic material that claims to improve performance of polymer-based optoelectronic devices. |
| 2011-04-26 | Quantum dots enable photon-electron coupling Doped semiconductor quantum dots could enable coupling of photonic and electronic properties, impacting such areas as light harvesting, nonlinear optics and quantum information processing. |
| 2013-05-08 | Polymer solar cell boasts 8.92% conversion efficiency Researchers from Ulsan National Institute of Science and Technology demonstrated high-performance PSCs that claim to offer the highest reported values for plasmonic PSCs using metal nanoparticles. |
| 2013-03-14 | Numerical model to aid in nanophotonic designs The numerical model developed by A*STAR researchers could be an invaluable tool for designers in nanophotonics as it can simulate the performance of circuits that rely on light. |
| 2014-12-29 | Novel technique opens path to low-cost 3D nanomanufacturing Laser shock imprinting creates large-area patterns of 3D nanoshapes from metal sheets that will inexpensively mass produce innovations such as "plasmonic metamaterials" for advanced technologies. |
| 2006-01-16 | Nanorods show negative refraction in near-IR Findings demonstrate the feasibility of metamaterial with a negative refractive index in the near-IR portion of the spectrum. |
| 2013-02-15 | Deconstructed nanosensors offer new design approach Researchers found that metal nanostructures can act as tiny antennae to control light since they can focus and guide light on the smallest of scales, surmounting design practicality and reliability issues. |
| 2008-07-31 | Coming soon: Lens-free lasers Focusing semiconductor lasers usually require bulky optical lenses acting as a collimator, but researchers have recently demonstrated a plasmonic collimator that utilizes grooves etched directly into the laser facet. |
| 2002-08-28 | Unnatural optics create precise photonic lens Optical experiments using arrays of nanowires are demonstrating that the concept of a negative refractive index could be realized in practical systems. |
| 2014-05-13 | TiN-based metamaterials exhibit high photonic densities The metamaterials comprise superlattices using TiN and a dielectric carrying the same properties as the metal. The layers are grown inside a vacuum chamber using magnetron sputtering. |
| 2016-05-12 | Tech breakthrough boosts 2D semiconductor photoluminescence by 20,000-fold National University of Singapore researchers said the discovery could pave the way for the application of 2D semiconductors such as tungsten diselenide in advanced optoelectronic and photonic devices. |
| 2012-07-30 | Researchers boast world's smallest semiconductor laser Physicists at the University of Texas-Austin say they have developed the smallest semiconductor laser that operates well below the 3D diffraction limit. |
| 2012-10-15 | Plasmonics show promise for optically induced electronics Rice University researchers are doping graphene with light in a way that could lead to the more efficient design and manufacture of electronics, as well as novel security and cryptography devices. |
| 2013-11-12 | Nanostructures allow specific filtering of colours The team from A*STAR IMRE fabricated arrays of silver nanoscale pillars that can selectively reflect light of any desired colour. |
| 2016-05-13 | Laser-like optical amplifier boosts output of captured light Rice University's new light-amplifying nanoparticle functions much like a laser, but while lasers have a fixed output frequency, this device's output can be tuned over a range of frequencies that includes a portion of the infrared spectrum. |
| 2012-09-03 | Innovation in shaping nanowires unveiled Researchers from Purdue University have developed a new manufacturing method for molding nanowires. |
| 2011-06-06 | Hybrid plasmon polariton improves silicon photonics Berkeley Lab has invented new quasiparticle, the hybrid plasmon polariton, which claims solves the problem of optical losses in silicon waveguides. |
| 2008-05-16 | HP details silicon photonics road map HP has outlined its goal to use silicon photonics to connect blades, boards, chips and eventually cores on the same chip at HP Labs's first annual Photonic Interconnect Forum this week. |
| 2013-06-25 | Ferroelectric-graphene system packs more components in chips MIT researchers claim hybrid ferroelectric and graphene technology could eventually lead to computer and data-storage chips that are able to accommodate more components in a given area and are faster and less power-hungry. |
| 2005-12-12 | Consortium seeks to ramp nanoelectronics research A consortium of companies has announced its first research grants under the Semiconductor Industry Association's new Nanoelectronics Research Initiative. |
| 2015-08-06 | CMOS optical transistor boasts speeds up to 4THz Potentially over a 1000 times faster than silicon transistors, the novel transistors can be fabricated atop CMOS to boost switching time by nearly 5,000-times less than 300fs. |
| 2013-04-12 | A*STAR research advances photonics integration The team identified that the compound BiFeO3 has the potential to be used to efficiently couple light to electrical charges through light-induced electron oscillations known as plasmons. |
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