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New Technique Controls Dimensions of Gold Nanorods while Manufacturing on a Large Scale

By Guest PostNovember 27, 2013Scienceascorbic acid, cancer treatment, dissolved in solution, gold nanorods, joseph tracy, klaudia kozek, krystian kozek, large scale, nanoscale gold rods, new technique, north Carolina, optical properties, state university, sumeet mishra, vitamin c, wavelengths, wei chen wu

North Carolina State University researchers have a developed a technique for efficiently producing nanoscale gold rods in large quantities while simultaneously controlling the dimensions of the nanorods and their optical properties. The optical properties of gold nanorods make them desirable for use in biomedical applications ranging from imaging technologies to cancer treatment.

“This technique should facilitate the economical manufacture of large volumes of gold nanorods,” says Dr. Joseph Tracy, an associate professor of materials science and engineering at NC State and senior author of a paper on the work. “And that should be good news for both the science community and the biomedical research and development community.” (more…)

New Connection between Stacked Solar Cells Can Handle Energy of 70,000 Suns

By Guest PostSeptember 25, 2013Scienceconversion efficiency, energy, gallium arsenide, geoff bradshaw, heat, jeff harmon, joshua samberg, new technique, north Carolina, photovoltaic energy, salah bedair, solar energy, stacked solar cells, state university, suns, thin film, voltage, wasted energy, zachary carlin

North Carolina State University researchers have come up with a new technique for improving the connections between stacked solar cells, which should improve the overall efficiency of solar energy devices and reduce the cost of solar energy production. The new connections can allow these cells to operate at solar concentrations of 70,000 suns worth of energy without losing much voltage as “wasted energy” or heat.

Stacked solar cells consist of several solar cells that are stacked on top of one another. Stacked cells are currently the most efficient cells on the market, converting up to 45 percent of the solar energy they absorb into electricity. (more…)

Researchers Find New Way to Create ‘Gradients’ for Understanding Molecular Interactions

By Guest PostAugust 16, 2013Sciencealbena ivanisevic, amino acid, biological systems, biomolecular gradients, cell receptors, gradients, human body, indium gallium nitride, indium rich end, ingan, l arginine, lauren bain, ligands, molecular behavior, molecules, new technique, north Carolina, oxide accumulation, peptides, ph level, proteins, salah bedair, semiconductor material, state university, substrate, tania paskova

Scientists use tools called gradients to understand how molecules interact in biological systems. Researchers from North Carolina State University have developed a new technique for creating biomolecular gradients that is both simpler than existing techniques and that creates additional surface characteristics that allow scientists to monitor other aspects of molecular behavior.

A gradient is a material that has a specific molecule on its surface, with the concentration of the molecule sloping from a high concentration on one end to a low concentration at the other end. The gradient is used not only to determine whether other molecules interact with the molecules on the gradient, but to determine the threshold level at which any interactions take place. (more…)

Sugar makes cancer light-up in MRI scanners

By Guest PostJuly 14, 2013Healthcabi, cancer, dose of radiation, glucocest, human cancer, image tumour, magnetic resonance imaging, mark lythgoe, mri, mri scanners, new technique, radioactive material, radiologist, scans of mice, simon walker samuel, standard radioactive techniques, sugar, ucl scientists, university college london, xavier golay

A new technique for detecting cancer by imaging the consumption of sugar with magnetic resonance imaging (MRI) has been unveiled by UCL scientists. The breakthrough could provide a safer and simpler alternative to standard radioactive techniques and enable radiologists to image tumours in greater detail.

The new technique, called ‘glucose chemical exchange saturation transfer’ (glucoCEST), is based on the fact that tumours consume much more glucose (a type of sugar) than normal, healthy tissues in order to sustain their growth. (more…)

New Technique May Open Up an Era of Atomic-scale Semiconductor Devices

By Guest PostJune 2, 2013Scienceair, atomic scale, chun li, era, leds, light emitting diodes, linyou cao, molecules, molybdenum chloride, mos2, new technique, north Carolina, partial pressure, researchers, self limiting growth, semiconductor devices, solid atoms, state university, substrate, thin layer, vapor pressure, yifei yu

Researchers at North Carolina State University have developed a new technique for creating high-quality semiconductor thin films at the atomic scale – meaning the films are only one atom thick. The technique can be used to create these thin films on a large scale, sufficient to coat wafers that are two inches wide, or larger.

“This could be used to scale current semiconductor technologies down to the atomic scale – lasers, light-emitting diodes (LEDs), computer chips, anything,” says Dr. Linyou Cao, an assistant professor of materials science and engineering at NC State and senior author of a paper on the work. “People have been talking about this concept for a long time, but it wasn’t possible. With this discovery, I think it’s possible.” (more…)

New Technique Creates Stronger, Lightweight Magnesium Alloys

By Guest PostMarch 29, 2013Scienceaerospace industries, automobile, conventional, gadolinium, hot rolling technology, lightweight magnesium alloys, nano spaced, nc state, new technique, north Carolina, silver, specific strength, stacking faults, state university, suveen mathaudhu, us army research, yttrium, yuntian zhu, zirconium

Researchers from North Carolina State University have developed a new technique for creating stronger, lightweight magnesium alloys that have potential structural applications in the automobile and aerospace industries.

Engineers constantly seek strong, lightweight materials for use in cars and planes to improve fuel efficiency. Their goal is to develop structural materials with a high “specific strength,” which is defined as a material’s strength divided by its density. In other words, specific strength measures how much load it can carry per unit of weight. (more…)

Energy-momentum Spectroscopy: New Technique Could Improve Optical Devices

By Guest PostMarch 10, 2013Scienceangle, electronic excitations, energy momentum spectroscopy, grapheme, interference, jon schuller, keliang he, kymissis group, layered nanomaterials, leds, light absorbing devices, light emitting, molybdenum disulfide, mos2, new technique, optical devices, organic semiconductor, orientation of light, polarization, ptcda, rainbow colors, rashid zia, sinan karaveli, solar cells, source, theanne schiros, thin films, two dimensional material

Understanding the source and orientation of light in light-emitting thin films — now possible with energy-momentum spectroscopy — could lead to better LEDs, solar cells, and other devices that use layered nanomaterials.

PROVIDENCE, R.I. [Brown University] — A multi-university research team has used a new spectroscopic method to gain a key insight into how light is emitted from layered nanomaterials and other thin films.

The technique, called energy-momentum spectroscopy, enables researchers to look at the light emerging from a thin film and determine whether it is coming from emitters oriented along the plane of the film or from emitters oriented perpendicular to the film. Knowing the orientations of emitters could help engineers make better use of thin-film materials in optical devices like LEDs or solar cells. (more…)

Researchers Propose New Way to Probe Earth’s Deep Interior

By Guest PostFebruary 25, 2013Scienceafu lin, amherst college, atoms, austin, building blocks, central core, characteristics, characteristics of mantle, chemical properties, composition, deep earth, earth, earth rotation axis, electromagnetism, electron spin density, electrons, elusive fifth force, fifth force, geoelectrons, geological layer, geomagnetic field, gravitational attraction, gravity, interior, jung fu, larry hunter, magnetic interaction, mantle, Nature, neutrons, new technique, outer crust, protons, researchers, spin, spin directions, spin spin interaction, strong nuclear forces, subatomic particles, university of texas

AUSTIN, Texas — Researchers from Amherst College and The University of Texas at Austin have described a new technique that might one day reveal in higher detail than ever before the composition and characteristics of the deep Earth.

There’s just one catch: The technique relies on a fifth force of nature (in addition to gravity, the weak and strong nuclear forces and electromagnetism) that has not yet been detected, but which some particle physicists think might exist. Physicists call this type of force a long-range spin-spin interaction. If it does exist, this exotic new force would connect matter at Earth’s surface with matter hundreds or even thousands of kilometers below, deep in Earth’s mantle. In other words, the building blocks of atoms—electrons, protons, and neutrons—separated over vast distances would “feel” each other’s presence. The way these particles interact could provide new information about the composition and characteristics of the mantle, which is poorly understood because of its inaccessibility. (more…)

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