This is to inform that due to some circumstances beyond the organizer control, “2nd Edition of International Conference on Analytical and Bioanalytical Techniques” (Bioanalytica 2023) during September 14-16, 2023 at Valencia, Spain has been postponed. The updated dates and venue will be displayed shortly.
Your registration can be transferred to the next edition, if you have already confirmed your participation at the event.
For further details, please contact us at bioanalytica@magnusconference.com or call + 1 (702) 988 2320.
The scientific study of chemical and chemical science phenomena that occur in natural settings is known as environmental chemistry. Environmental chemistry is a mental object science that includes half, aquatic, and soil chemistry, relies heavily on analytical chemistry, and is linked to environmental and completely different fields of science. Because it offers the information that frames most environmental research, quantitative qualitative analysis is an important aspect of environmental chemistry. Target analytes include naturally occurring compounds and anthropogenically derived contaminants, and environmental analysis includes matrices from the hydrosphere, atmosphere, lithosphere, and biosphere. Fluxes, which are time integrated loads, as well as concentrations, are critical to determine in various environmental circumstances. Environmental analysis includes the compartments of air, soil, water, and biota.
Title : The EVA technique in analytical biochemistry
Pier Giorgio Righetti, Politecnico di Milano, Italy
Title : Autoanalysis, a powerful software for chemical and bioanalytical analysis
Victor Cerda, Sciware Systems, Spain
Title : Applications of chromatography for analyzing bee products
Jose Bernal, University of Valladolid, Spain
Title : Interface design for circular bio-composites: Sensing the failure
Pieter Samyn, Department of Innovations in Circular Economy and Renewable Materials, SIRRIS, Leuven, Belgium
Title : Bioanalytical tools for diagnosis of infectious diseases: Digital PCR as a powerful, calibration-free quantitative tool
Esmeralda Valiente, Physikalisch-Technische Bundesanstalt National Metrology Institute, Germany
Title : Correlation analysis of established creep failure models through computational modelling for SS-304 material
Mohsin Sattar, Universiti Teknologi Petronas, Malaysia