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University of Kansas researchers have designed a low-cost, vision-based bolt loosening detection method that utilizes computer-based image registration techniques to identify structural defects in steel joints of civil structures.

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A University of Kansas researcher has developed an fluid loss additive for general water-based drill-in fluids using polyelectrolyte complex (PEC) nanoparticles (PECNP).

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A University of Kansas researcher has developed a fabrication method for novel two-dimensional nanodome/graphene support substrates with increased sensitivity for use in SERS (Surface Enhanced Raman Scattering) spectroscopy. 

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A University of Kansas researcher developed a novel model for real-time evaluation of when and how to convert harmful particulate matter emitted from vehicles or power plants into harmless substances through oxidation, based on predictions of soot loading, soot oxidation, temperatures, and catalytic material influence. 

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This disposable endoscopic bite block is a novel adaptation of the standard endoscopic bite block typically used for oral endoscopic procedures.

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An unprecedented rational approach to dysregulate bacterial iron homeostasis by small molecule probes designed to inhibit the mobilization of iron from BfrB (bacterioferritin), the iron storage protein in Pseudomonas aeruginosa.

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KU researchers have developed a computer-based image overlapping approach for detecting structural defects in metallic structures.  

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A KU researcher has developed a superomniphobic (superhydrophobic and superoleophobic) coating material that is self-healing when damaged and retains its super-repellency.  

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A novel method for evaluating cerebrovascular health in a patient in response to exercise. The method offers significant advantages over the traditional methods for monitoring cerebrovascular health and overcomes many of the limitations and concerns with understanding the fundamental mechanisms controlling cerebrovascular function. This is important because understanding the middle cerebral artery dynamic response during different exercise intensities is vital for understanding brain health, overall cerebrovascular function and designing and evaluating exercise strategies for maximizing therapeutic potential.

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A novel method for detecting and monitoring the reactive nitrogen species peroxynitrite in normal physiology and human pathology. The invention offers significant advantages over traditional methods for detecting and monitoring the cellular production of peroxynitrite by overcoming limitations of other sensors. This is important because current methods are less sensitive and less robust, especially for studies of living cells such as its involvement in immunology. This invention may yield better information about the effects of peroxynitrite in a variety of diseases including infectious disease, cancer, neurodegeneration, and others.

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