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Micheli, Giovanni De
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Publications (5/5 displayed)
- 2018Highly-stable Li+ ion-selective electrodes based on noble metal nanostructured layers as solid-contacts.citations
- 2016Platinum nanopetal-based potassium sensors for acute cell death monitoringcitations
- 2014Direct and selective synthesis of a wide range of carbon nanomaterials by CVD at CMOS compatible temperatures
- 2014High-performance multipanel biosensors based on a selective integration of nanographite petals.citations
- 2013Direct growth of nanotubes and graphene nanoflowers on electrochemical platinum electrodes.citations
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document
Direct and selective synthesis of a wide range of carbon nanomaterials by CVD at CMOS compatible temperatures
Abstract
Biosensors benefit from specific nano-structuration of the active bio-interface layer. In this perspective, a wide range of carbon nanomaterials including multi-walled carbon nanotubes (MWCNTs), nanographite and carbon nanowalls (CNWs) have been directly synthesised by chemical vapor deposition (CVD) on Pt microelectrodes for the first time down to CMOS-compatible temperatures. This integration process, extremely useful to develop nanostructured multi-sensing site biodevices, has been validated by testing sensors for glucose with enhanced and competitive performance. Moreover it paves the way to the full integration of CMOS circuits, nanostructures and bioprobes.