Matching Low Viscosity with Enhanced Conductivity in Vat Photopolymerization 3D Printing: Disparity in the Electric and Rheological Percolation Thresholds of Carbon-Based Nanofillers Is Controlled by the Matrix Type and Filler Dispersion

ACS OMEGA

SEVRIUGINA, V.; PAVLIŇÁK, D.; ONDREÁŠ, F.; JAŠEK, O.; ŠTAFFOVÁ, M.; LEPCIO, P., 2023: Matching Low Viscosity with Enhanced Conductivity in Vat Photopolymerization 3D Printing: Disparity in the Electric and Rheological Percolation Thresholds of Carbon-Based Nanofillers Is Controlled by the Matrix Type and Filler Dispersion. ACS OMEGA 8(48), p. 45566 - 12, doi: 10.1021/acsomega.3c05683; FULL TEXT
(KRATOS-XPS, WITEC-RAMAN, BET-DEGASSER, MIRA-STAN, FTIR-CHEMLAB, LEICACOAT-STAN)

Equipment:

• X-ray Photoelectron Spectroscopy Axis Supra (KRATOS-XPS)
• Witec Alpha 300R (WITEC-RAMAN)
• BET_Degasser (BET-DEGASSER)
• Scanning electron microscope (SEM) MIRA3 XMU (MIRA-STAN)
• Vacuum FTIR Vertex70v + microscope Hyperion 3000 (FTIR-CHEMLAB)
• Coater Leica EM ACE600 (LEICACOAT-STAN)

Research Groups:

• Advanced Polymers and Composites
• Advanced Low-Dimensional Nanomaterials
• CF: CEITEC Nano

CEITEC authors:

• Veronika Sevriugina
• David Pavliňák, Ph.D.
• František Ondreáš, Ph.D.
• Petr Lepcio, Ph.D.