Over the past decades, carbon-based nanomaterials have been intensively studied for their application in gas sensing technologies due to their special mechanical and electrical properties. However, most attention has been given to sp2-hybridized carbon allotropes such as nanotubes and graphene leaving other allotropes like Carbyne (sp-hybridized carbon) completely unexplored. In this talk, I will present the latest results on carbyne-enriched film for selective H2S sensing in the frame of the CarbyneSense project.
Antonio Panes obtained his bachelor degree in Chemical Engineering at the Universidad Veracruzana in 2012. His bachelor thesis focused on dye-sensitized solar cells in the group of Dr. Ebner Azuara. In October 2013 he joined the Master Program Molecular Bioengineering at BIOTEC, TU Dresden. He was working with us at his Master thesis dealing with carbon nanotubes as active elements of sensor devices and now works at this PhD thesis dealing with lithographic nanofabrication and integration of 2D materials.
Over the past decades, carbon-based nanomaterials have been intensively studied for their application in gas sensing technologies due to their special mechanical and electrical properties. However, most attention has been given to sp2-hybridized carbon allotropes such as nanotubes and graphene leaving other allotropes like Carbyne (sp-hybridized carbon) completely unexplored. In this talk, I will present the latest results on carbyne-enriched film for selective H2S sensing in the frame of the CarbyneSense project.
Antonio Panes obtained his bachelor degree in Chemical Engineering at the Universidad Veracruzana in 2012. His bachelor thesis focused on dye-sensitized solar cells in the group of Dr. Ebner Azuara. In October 2013 he joined the Master Program Molecular Bioengineering at BIOTEC, TU Dresden. He was working with us at his Master thesis dealing with carbon nanotubes as active elements of sensor devices and now works at this PhD thesis dealing with lithographic nanofabrication and integration of 2D materials.