A resistive chemosensor has been designed and investigated as a potential detecting system capable of detecting mercury vapours in traces (ppt), requiring low working cost as well as maintenance. From recent literature, electrospinning resulted to be one of the best nanotechnology for developing ultra-sensitive sensing systems, both for the uniqueness of the resulting nanostructures and for production rate and cost.
Invito a Presentazione Orale in International Conference NART 2015 in Liberec (Photocatalytically gold doped nanofibrous layers of titania to detect mercury in air)
Macagnano A
2015
Abstract
A resistive chemosensor has been designed and investigated as a potential detecting system capable of detecting mercury vapours in traces (ppt), requiring low working cost as well as maintenance. From recent literature, electrospinning resulted to be one of the best nanotechnology for developing ultra-sensitive sensing systems, both for the uniqueness of the resulting nanostructures and for production rate and cost.File in questo prodotto:
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