In the VIIth International Conference on Agri-Food Antibodies that is going to be held in September in Uppsala (Sweden), AZTI is going to present immnunosensors to detect pesticides.
AZTI has a great deal of experience in this area, since it has worked several years in projects related to research and development of biosensors adapted to the needs of the food industry. Biosensors or rapid monitoring tools are great potentials for the food industry, because in contrast to conventional analytic techniques, they provide specific, simple and quick answers.
Identifying and quantifying pesticide waste in water and food is restricted by traditional monitoring systems. In contrast, immunosensors are very sophisticated new monitoring tools that allow the detection of molecules with very low molecular weight, such as the components of the pesticides.
Raul Lopez de Gereñu | Basque research
Sustainable forest management contributes more to climate protection than forest wilderness
07.02.2020 | Max-Planck-Institut für Biogeochemie
Microscopic partners could help plants survive stressful environments
30.01.2020 | Washington State University
Most natural and artificial surfaces are rough: metals and even glasses that appear smooth to the naked eye can look like jagged mountain ranges under the microscope. There is currently no uniform theory about the origin of this roughness despite it being observed on all scales, from the atomic to the tectonic. Scientists suspect that the rough surface is formed by irreversible plastic deformation that occurs in many processes of mechanical machining of components such as milling.
Prof. Dr. Lars Pastewka from the Simulation group at the Department of Microsystems Engineering at the University of Freiburg and his team have simulated such...
Investigation of the temperature dependence of the skyrmion Hall effect reveals further insights into possible new data storage devices
The joint research project of Johannes Gutenberg University Mainz (JGU) and the Massachusetts Institute of Technology (MIT) that had previously demonstrated...
Researchers at Chalmers University of Technology, Sweden, recently completed a 5-year research project looking at how to make fibre optic communications systems more energy efficient. Among their proposals are smart, error-correcting data chip circuits, which they refined to be 10 times less energy consumptive. The project has yielded several scientific articles, in publications including Nature Communications.
Streaming films and music, scrolling through social media, and using cloud-based storage services are everyday activities now.
After helping develop a new approach for organic synthesis -- carbon-hydrogen functionalization -- scientists at Emory University are now showing how this approach may apply to drug discovery. Nature Catalysis published their most recent work -- a streamlined process for making a three-dimensional scaffold of keen interest to the pharmaceutical industry.
"Our tools open up whole new chemical space for potential drug targets," says Huw Davies, Emory professor of organic chemistry and senior author of the paper.
Superconductivity approaching room temperature may be possible in hydrogen-rich compounds at much lower pressures than previously expected
Reaching room-temperature superconductivity is one of the biggest dreams in physics. Its discovery would bring a technological revolution by providing...
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