Researchers have created tiny holograms using a metasurface capable of the ultra-efficient control of light, representing a potential new technology for advanced sensors, high-resolution displays and information processing. The metasurface, thousands of V-shaped nanoantennas formed into an ultra-thin gold foil, could make possible optical switches small enough to be integrated into computer chips for information processing.
Iris scans, fingerprint scans, facial and voice...
Purdue Univ. researchers have successfully...
Researchers at Purdue Univ. have developed...
Researchers at Purdue Univ. are developing a method to mass-produce a new type of nanomaterial for advanced sensors and batteries, with an eye toward manufacturing in the Midwest. Research findings indicate the material shows promise as a sensor for detecting glucose in the saliva or tears and for "supercapacitors" that could make possible fast-charging, high-performance batteries.
OnTarget Laboratories LLC has teamed with partners in academia to test a novel optical imaging technology developed at Purdue Univ. that could help surgeons see cancer tissue during surgery. The technology is based on the over-expression of specific receptors on solid cancerous tumors and enables illumination of the tumor tissue during surgery.
For the threat of meteor strikes large or small, early detection is key, and evacuation may be the only defense needed within the next 1,000 years, according to an asteroid impact expert. The best investment in asteroid defense is not in weapons to deflect them, but in telescopes and surveys to find them.
Researchers have developed a system that concentrates foodborne salmonella and other pathogens faster than conventional methods by using hollow thread-like fibers that filter out the cells. The machine, called a continuous cell concentration device, could make it possible to routinely analyze food or water samples to screen for pathogens within a single work shift at food processing plants.
Researchers are developing a system that uses tiny magnetic beads to quickly detect rare types of cancer cells circulating in a patient's blood, an advance that could help medical doctors diagnose cancer earlier than now possible and monitor how well a patient is responding to therapy.
Researchers at Purdue Univ. have shown how to reduce fuel consumption while improving the efficiency of hydraulic steering systems in heavy construction equipment. The new approach incorporates several innovations: It eliminates valves now needed to direct the flow of hydraulic fluid in steering systems and uses advanced algorithms and models to precisely control hydraulic pumps.
Purdue Univ. researchers are working with the U.S. Army Research Laboratory to develop a technology for creating parts out of interlocking segments produced using 3-D printing to repair vehicles and other equipment in the field. The Purdue portion of the research focuses on clever, Lego-like building blocks called "topologically interlocking structures”.
Researchers have taken detailed images and measurements of the morphing structure of a brain protein thought to play a role in Parkinson's disease, information that could aid the development of medications to treat the condition. The protein, called alpha synuclein, ordinarily exists in a globular shape. However, the protein morphs into amyloid fibrils, which are linked to protein molecules that form and cause neurodegenerative diseases.
Purdue Univ. researchers are peering into the future to help the U.S. foil enemy missile attacks. Working with the U.S. Missile Defense Agency, the research team is creating software that makes it possible to pose various "what-if" questions; scenarios that explore plausible future missile advances in adversarial nations and the defensive capability of the U.S.
A recent invention at Purdue Univ. could improve therapy selection for personalized cancer care. Researchers have created a technique called BioDynamic Imaging that measures the activity inside cancer biopsies, or samples of cells. It allows technicians to assess the efficacy of drug combinations, called regimens, on personal cancers.
Researchers at Purdue Univ. are part of a national effort to develop new materials having super strength and other properties by using shock waves similar to those generated by meteorites striking the Earth. A new center has been established specifically for this type of investigation, and its primary mission is to predict shock conditions under which new materials can be synthesized.
Researchers are working on a range of options to overcome a fundamental obstacle in commercializing plasmonic metamaterials that could bring advanced optical technologies for more powerful computers, new cancer treatments and other innovations. The materials could make it possible to harness clouds of electrons called "surface plasmons" to manipulate and control light.
The discovery of a gene's function in E. coli and other bacteria might lead to a probiotic to prevent the most common type of kidney stone, according to a Purdue Univ. study. Human cells can't metabolize oxalate, an acidic chemical found in nearly all plants we eat, so any oxalate we absorb from food must be excreted from the body. Calcium-oxalate urinary stones can form when oxalate reaches a high concentration in the kidneys.
Researchers have developed a concept to potentially improve delivery of drugs for cancer treatment using nanoparticles that concentrate and expand in the presence of higher acidity found in tumor cells. The concept involves using nanoparticles made of "weak polybases," compounds that expand when transported into environments mimicking tumor cells, which have a higher acidity than surrounding tissues.
A medical test previously developed to measure a toxin found in tobacco smokers has been adapted to measure the same toxin in people suffering from spinal cord injuries and multiple sclerosis, offering a potential tool to reduce symptoms. The toxin, called acrolein, is produced in the body after nerve cells are injured, triggering a cascade of biochemical events thought to worsen the injury's severity.
Purdue Univ. researchers have demonstrated a method for "temporal cloaking" of optical communications, representing a potential tool to thwart would-be eavesdroppers and improve security for telecommunications. While the previous research in temporal cloaking required the use of a complex, ultrafast-pulsing "femtosecond" laser, the researchers achieved the feat using off-the-shelf equipment.
Virus particles of the same type had been thought to have identical structures, like a mass-produced toy, but a new visualization technique developed by a Purdue University researcher revealed otherwise. It was found that an important viral substructure consisted of a collection of components that could be assembled in different ways, creating differences from particle to particle.
Researchers have created a new type of transparent electrode that might find uses in solar cells, flexible displays for computers and consumer electronics, and future "optoelectronic" circuits for sensors and information processing. The electrode is made of silver nanowires covered with a material called graphene, an extremely thin layer of carbon.
A new design tool interprets hand gestures, enabling designers and artists to create and modify 3D shapes using only their hands as a "natural user interface" instead of keyboard and mouse. The tool, called Shape-It-Up, uses specialized computer algorithms and a depth-sensing camera to observe and interpret hand movements and gestures.
Researchers have created a new tool to detect flaws in lithium-ion batteries as they are being manufactured, a step toward reducing defects and inconsistencies in the thickness of electrodes that affect battery life and reliability. The Purdue researchers have developed a system that uses a flashbulb-like heat source and a thermal camera to read how heat travels through the electrodes.
Researchers at Purdue University have found a way to see synthetic nanostructures and molecules using a new type of super-resolution optical microscopy that does not require fluorescent dyes. The imaging system, called saturated transient absorption microscopy, or STAM, uses a trio of laser beams, including a doughnut-shaped laser beam that selectively illuminates some molecules but not others.
Researchers have married two biological imaging technologies, creating a new way to learn how good cells go bad. Being able to study a cell's internal workings in fine detail would likely yield insights into the physical and biochemical responses to its environment. The technology, which combines an atomic force microscope and nuclear magnetic resonance system, could help researchers study individual cancer cells.
In efforts to prioritize and efficiently manage the repair of boats and stations damaged by Superstorm Sandy, the U.S. Coast Guard has accredited a system called Coast Guard Search and Rescue Visual Analytics (cgSARVA) developed in collaboration with Purdue University.
A Purdue University-led team has revealed the proton transfer pathway responsible for a majority of energy storage in photosynthesis. The team used X-ray crystallography to describe the molecular structure of the cytochrome complex isolated from cyanobacteria, the most primitive photosynthetic organism. The findings contribute to the understanding of the function of photosynthesis and that of membrane proteins.
Kevin Keener, a professor of food science at Purdue University, looks for new ways to kill harmful bacteria, and has determined that exposing packaged liquids, fruits, and vegetables to an electrical field for just minutes could remove all traces of foodborne pathogens. His method uses electricity to generate a plasma, or ionized gas, from atmospheric gases inside the food package.
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