Descripción del proyecto
Atacar a los microbios presentes en los alimentos durante su procesamiento y mantenerlos a raya durante su almacenamiento
A medida que la población global aumenta y el cambio climático amenaza el abastecimiento de agua, la conservación de los alimentos que se producen plantea un desafío cada vez más acuciante. Puede que la causa más importante del deterioro de los alimentos sea la actividad de los microbios, como bacterias, hongos y levaduras. Los tipos y la cantidad de microorganismos presentes sobre o en los alimentos dependen de diferentes factores y pueden variar mucho. También existen distintas formas de limpiar y desinfectar las superficies de los alimentos y los materiales en contacto con alimentos, muchas de las cuales son de naturaleza química o física. El proyecto NanoSurf, financiado con fondos europeos, está desarrollando un nuevo método que incorpora tres métodos demostrados diferentes. En primer lugar, se aplicará plasma sin contacto o la tecnología de ultrasonido en la empresa de elaboración de productos alimentarios. Posteriormente, se generarán nanopartículas antimicrobianas metálicas «in situ» que inhibirán el crecimiento de los microbios durante el almacenamiento. Esta tecnología también resulta prometedora para aplicaciones médicas.
Objetivo
In the next 50 years, an estimated 10 billion people will require food but microbial spoilage cause more than 50% of all fruits and vegetables to go to waste in the EU alone. Current disinfection techniques do not seem effective to curb food wastage and at this rate, feeding the future world population will impose challenges. Thus, the overall objective of NanoSurf is to develop a procedure for the decontamination and disinfection of food products and food contact materials using a combination of (1) plasma, (2) ultrasound and (3) nanoparticles with antimicrobial properties. All three individual technologies emerge as effective in disinfecting, decontaminating and preserving food from microbial spoilage. However, based to our knowledge, the integration of plasma, ultrasound and nanoparticles into one technology has never been described for decontamination/disinfection applications. A two step-procedure is envisioned with (a) an initial decontamination with plasma and/or ultrasound technology and then (b) under these conditions generate in situ a low concentration of antimicrobial metallic nanoparticles to deter microbial growth during storage conditions. The method will make use of either pure water as solvent or a gaseous phase, thus eliminating the need of environmentally toxic media, such as, alcohol and electroconductive additives. NanoSurf is expected to have numerous advantages over traditional decontamination/disinfection technologies because the synthesis of nanomaterials Nps will be produced in-situ. The advantage of the proposed technological solution is the ease of implementation, the selection of varied technological schemes for plasma-ultrasound treatment as well as the synthesis of nanoscale metal oxide forms by non-toxic doses in various proportions for different processing times. This novel technology, as demonstrated based on the development of novel prototypes, is expected to find immediate application in the food industry and the medical field.
Ámbito científico
Not validated
Not validated
- natural scienceschemical sciencesinorganic chemistryinorganic compounds
- agricultural sciencesagriculture, forestry, and fisheriesagriculturehorticulturevegetable growing
- natural scienceschemical sciencesorganic chemistryalcohols
- engineering and technologynanotechnologynano-materials
- natural sciencesphysical sciencesacousticsultrasound
Palabras clave
Programa(s)
Régimen de financiación
MSCA-IF - Marie Skłodowska-Curie Individual Fellowships (IF)Coordinador
3000 Leuven
Bélgica