Litcius/Paper detail

Plasma Surface Modification of 3Y-TZP at Low and Atmospheric Pressures with Different Treatment Times

Sung Un Kang, Chul‐Ho Kim, Chul‐Ho Kim, Sanghyun You, Dayoung Lee, Yu Kwon Kim, Seung‐Joo Kim, Chang-Koo Kim, Chang-Koo Kim, Hee‐Kyung Kim

2023International Journal of Molecular Sciences13 citationsDOIOpen Access PDF

Abstract

/Ar gas. Plate-shaped zirconia specimens were randomly divided into two categories: vacuum plasma and atmospheric plasma. Each group was subdivided into five subgroups according to the treatment time: 1, 5, 10, 15, and 20 min. Following the plasma treatments, we characterized the surface properties, including wettability, chemical composition, crystal structure, surface morphology, and zeta potential. These were analyzed through various techniques, such as contact angle measurement, XPS, XRD, SEM, FIB, CLSM, and electrokinetic measurements. The atmospheric plasma treatments increased zirconia's electron donation (γ-) capacity, while the vacuum plasma treatments decreased γ- parameter with increasing times. The highest concentration of the basic hydroxyl OH(b) groups was identified after a 5 min exposure to atmospheric plasmas. With longer exposure times, the vacuum plasmas induce electrical damage. Both plasma systems increased the zeta potential of 3Y-TZP, showing positive values in a vacuum. In the atmosphere, the zeta potential rapidly increased after 1 min. Atmospheric plasma treatments would be beneficial for the adsorption of oxygen and nitrogen from ambient air and the generation of various active species on the zirconia surface.

Topics & Concepts

Atmospheric-pressure plasmaWettingZeta potentialPlasmaContact angleX-ray photoelectron spectroscopyPlasma cleaningAtmospheric pressureDielectric barrier dischargeAnalytical Chemistry (journal)Materials scienceCubic zirconiaAdsorptionSurface modificationChemistryChemical engineeringNanotechnologyDielectricEnvironmental chemistryComposite materialOrganic chemistryPhysical chemistryNanoparticleQuantum mechanicsGeologyEngineeringOceanographyOptoelectronicsCeramicPhysicsAdvanced Photocatalysis TechniquesRadioactive element chemistry and processingCatalytic Processes in Materials Science