This PhD thesis dealt with the chance to use electrospinning technology to create eco-compatible nanofibrous smart fabrics with potentials in promoting plant growth (biostimulants) and nanofibrous composite conductive and optical sensors to detect and reveal VOCs and gases related to soil metabolism and pollutants.
Terza Relazione Tecnico Scientifica Tesi Dottorato (Multifunctional and eco-friendly nanofibrous based tools to control and reduce environmental impacts in agricultural systems)
Antonella Macagnano
2019
Abstract
This PhD thesis dealt with the chance to use electrospinning technology to create eco-compatible nanofibrous smart fabrics with potentials in promoting plant growth (biostimulants) and nanofibrous composite conductive and optical sensors to detect and reveal VOCs and gases related to soil metabolism and pollutants.File in questo prodotto:
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