BET_Degasser (BET-DEGASSER)

Guarantor: Kateřina Tmejová, Ph.D.
Instrument status: Operational, 15.12.2022 08:54
Equipment placement: CEITEC Nano - B1.15
Research group: CF: CEITEC Nano

Description:

The degasser (3P prep J4) is an external degassing unit with 4 stations and sample preparation in vacuum; max. degasser temperature 400 °C. The degassed samples are used in volumetric sorption analyzer - BET_ANAMET

Publications:

Joda, N. N.; Edelmannová, M. F.; Pavliňák, D.; Santana, V. T.; Chennam, P. K.; Rihova, M.; Kočí, K.; Macak, J. M., 2025: Centrifugally spun hematite Fe2O3 hollow fibers: Efficient photocatalyst for H2 generation and CO2 reduction. APPLIED SURFACE SCIENCE 686, p. 1 - 12, doi: 10.1016/j.apsusc.2024.162132
(MIRA-STAN, LEICACOAT-STAN, RIGAKU3, KRATOS-XPS, WITEC-RAMAN, BET-DEGASSER, BET-ANAMET, JASCO)
Nandi, S.; Sonigara, K. K.; Pumera, M., 2025: Exploring the electrochemistry of Al3+ ion in amorphous Bi4V2O11 for rechargeable aqueous aluminum-ion battery. APPLIED MATERIALS TODAY 42, p. 1 - 9, doi: 10.1016/j.apmt.2024.102568; FULL TEXT
(RIGAKU3, LYRA, KRATOS-XPS, BET-DEGASSER, BET-ANAMET)
GHOSH, K.; NG, S.; LAZAR, P.; KANDAMBATH PADINJAREVEETIL, A.; MICHALIČKA, J.; PUMERA, M., 2024: 2D Germanane-MXene Heterostructures for Cations Intercalation in Energy Storage Applications. ADVANCED FUNCTIONAL MATERIALS , doi: 10.1002/adfm.202308793; FULL TEXT
(RIGAKU3, KRATOS-XPS, WITEC-RAMAN, TITAN, VERIOS, KEITHLEY-4200, MPS150, BET-DEGASSER, BET-ANAMET)
TINOCO NAVARRO, L.; CIHLÁŘ, J.; MICHALIČKA, J.; KAŠTYL, J.; ČÁSTKOVÁ, K., 2023: Effect of MCAA Synthesis and Calcination Temperature on Heterojunction Formation and Photocatalytic Activity of Biphasic TiO2 (B/A). CATALYSIS LETTERS 2, doi: 10.1007/s10562-023-04489-7; FULL TEXT
(RIGAKU3, WITEC-RAMAN, FTIR, VERIOS, TITAN, KRATOS-XPS, BET-DEGASSER, BET-ANAMET, ZETASIZER)
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, DHR)