Researchers at McMaster University have developed a rapid testing method using a simple paper strip that can detect E. coli in recreational water within minutes. The new tool can close the gap between outbreak and detection, improving public safety.
S8000 modular pH sensor platform.
Researchers at Carnegie Mellon University have developed a new fluorescent biosensor that has helped them find out the mechanism for amplification of the immune system.
Kenneth Revett, the academic editor of the International Journal of Cognitive Biometrics (IJCB), has reviewed cognitive biometrics in the inaugural issue of the journal. The novel approach is an alternative method for user authentication.
Researchers at the University of California, Santa Barbara (UCSB) have developed a quantum mechanical-based advanced biosensor for detection of biomolecules and trace substances for point-of-care diagnostics of diseases, forensics as well as for security application.
Fulcrum Biometrics, in collaboration with At-Scene, has announced that the FbF mobileOne biometric fingerprint accessory has been integrated into the iBolo (Be On the Lookout) law enforcement mobile application to enable field collection of biometric data using pocket-sized phones.
Researchers from the University of Connecticut have developed an explosives detector capable of sensing minute amount of TNT and other explosives present in liquids. At the recently held National Meeting & Exposition organized by the American Chemical Society, the new sensor has been deemed suitable for integration into a TNT test strip.
Scientists at the Pacific Northwest National Laboratory (PNNL) of the Department of Energy have developed a fluorescent biosensor using Thalassiosira pseudonana, a tiny marine diatom.
MarketResearch.com has added a new report on biosensors to its portfolio of electronics market reports. The report "Biosensors - A Global Market Overview," analyzes, reviews and projects the Europe, United States, Asia-Pacific, Japan and Rest of World markets. It further covers the regional markets of the United Kingdom, France, Germany and Italy.
A research team, led by Dr. Ulrich Rant from the Technische Universität München in partnership with a team of biochemists led by Dr. Robert Tampé from the Goethe University Frankfurt, has succeeded in improving the selectivity of a single-molecule, solid-state nanopore sensor, while retaining its sensitivity towards single molecules.
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