Contamination of heavy water by trace amounts of regular water is detectable by a novel sensor technology, according to a study led by University of Texas Austin scientists.
An electrochemical sensor has been elaborated by a team of scientists from the Faculty of Chemistry of the Lomonosov Moscow State University on the basis of polymers with molecular imprinting.
Researchers have developed a new type of nanosensor that is capable of determining both the presence and quantity of explosives such as TNT. The new technology offers a potential replacement for sniffer dogs, and could open the door to sensing applications for a variety of target analytes.
With lasagna being a hugely popular dish both as supermarket ready meals and in industrial meals for pubs and cafes, the texture of the final product is extremely important. The stickiness is related to the starch content of the pasta sheet, which in turn is related to the cooking temperature and time. Measuring pasta stickiness with the TA1 texture analyzer from Lloyd Instruments allows these parameters to be optimized.
A new method has been developed by chemical engineers from the University of Wisconsin–Madison to create low-cost chemical sensors for detecting industrial pollutants, explosives, or even chemical markers of disease in the breath of a patient.
A new collaborative online resource from METTLER TOLEDO discusses how to optimize chemistry through studying chemical reaction rates and measuring kinetics. A comprehensive listing of kinetics studies published in scientific journals is included.
MyDx, Inc., a rapidly growing chemical detection company and the makers of MyDx®, the first multi-use hand-held chemical analyzer for consumers, today announced that in response to the contaminated water crisis in the Tampa, Florida area, it is offering affected area residents free standalone single use AquaDx sensors to test the safety of their drinking water.
Single crystals that are made up of lead halide perovskites, and have the capacity to gage radioactive radiation with high accuracy have been developed by a group of researchers at ETH Zurich and Empa.
MyDx, Inc., a rapidly growing chemical detection company and the makers of MyDx, the first multi-use hand-held chemical analyzer for consumers, today announced it is launching its AquaDx™ sensor chip for the analysis of toxic chemicals in water, and is now accepting pre-orders at special pricing for early adopters.
A new molecular gel recipe developed at the University of Michigan is at the core of a prototype for a more accurate lead paint test.
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