Manipulating MWCNT/TiO2 heterostructure morphology at nanoscale and its implications to NO2 sensing properties

MATERIALS CHEMISTRY AND PHYSICS

KAUSHIK, P.; ELIÁŠ, M.; PRÁŠEK, J.; MICHALIČKA, J.; ZAJÍČKOVÁ, L., 2021: Manipulating MWCNT/TiO2 heterostructure morphology at nanoscale and its implications to NO2 sensing properties. MATERIALS CHEMISTRY AND PHYSICS 271, p. 124901-1 - 11, doi: 10.1016/j.matchemphys.2021.124901; FULL TEXT
(EVAPORATOR, PECVD-NANOFAB, DIENER, ALD, RIGAKU9, VERIOS, TITAN)

Equipment:

• Electron beam evaporator BESTEC (EVAPORATOR)
• High temperature plasma enhanced chemical vapour deposition system on C-based materials Oxford Instruments Plasma Technology NanoFab (PECVD-NANOFAB)
• Resist stripper Diener electronic NANO Plasma cleaner (DIENER)
• Atomic layer deposition system Ultratech/CambridgeNanoTech Fiji 200 (ALD)
• X-ray diffractometer with high brightness source Rigaku SmartLab 9kW (RIGAKU9)
• High resolution Scanning Electron Microscope FEI Verios 460L (VERIOS)
• High-resolution (scanning) Transmission Electron Microscope FEI Titan Themis 60-300 cubed (TITAN)

Research Groups:

• CF: CEITEC Nano
• Plasma Technologies

CEITEC authors:

• Marek Eliáš, Ph.D.
• Lenka Zajíčková, Ph.D.
• Jan Prášek, Ph.D.
• Jan Michalička