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Plasma electrolytic oxidation (PEO), also known as micro-arc oxidation (MAO), functionalizes surfaces, improving the mechanical, thermal, and corrosion performance of metallic substrates, along with other tailored properties (e.g., biocompatibility, catalysis, antibacterial response, self-lubrication, etc.). The extensive field of applications of this technique ranges from structural components, in particular, in the transport sector, to more advanced fields, such as bioengineering. The present Special Issue covers the latest advances in PEO‐coated light alloys for structural (Al, Mg) and biomedical applications (Ti, Mg), with 10 research papers and 1 review from leading research groups around the world.

Research & information: general --- Technology: general issues --- magnesium --- plasma electrolytic oxidation --- SiO2 particle --- corrosion resistance --- wear resistance --- micro arc oxidation (MAO) --- Cu nano-layer --- hydrophilic surface --- apatite --- in vitro bioactivity --- antibacterial properties --- PEO --- LDH --- active protection --- corrosion --- aluminium --- biodegradable implants --- magnesium alloy --- micro-arc oxidation --- Taguchi method --- SBF --- in-vivo test --- biodegradability --- plasma electrolytic oxidation (PEO) --- aluminum 6082 --- luminescent coatings --- phosphorescence --- anodized aluminum --- Mott-Schottky analysis --- defect --- annealing --- titanium dioxide --- anatase and rutile --- surface treatment --- wear --- medical engineering --- aluminum --- titanium --- Al7075 alloy --- aluminum oxide --- molten salt --- microhardness --- radio frequency magnetron sputtering (RFMS) --- calcium-phosphate (CaP) coating --- n/a

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Plasma electrolytic oxidation (PEO), also known as micro-arc oxidation (MAO), functionalizes surfaces, improving the mechanical, thermal, and corrosion performance of metallic substrates, along with other tailored properties (e.g., biocompatibility, catalysis, antibacterial response, self-lubrication, etc.). The extensive field of applications of this technique ranges from structural components, in particular, in the transport sector, to more advanced fields, such as bioengineering. The present Special Issue covers the latest advances in PEO‐coated light alloys for structural (Al, Mg) and biomedical applications (Ti, Mg), with 10 research papers and 1 review from leading research groups around the world.

Research & information: general --- Technology: general issues --- magnesium --- plasma electrolytic oxidation --- SiO2 particle --- corrosion resistance --- wear resistance --- micro arc oxidation (MAO) --- Cu nano-layer --- hydrophilic surface --- apatite --- in vitro bioactivity --- antibacterial properties --- PEO --- LDH --- active protection --- corrosion --- aluminium --- biodegradable implants --- magnesium alloy --- micro-arc oxidation --- Taguchi method --- SBF --- in-vivo test --- biodegradability --- plasma electrolytic oxidation (PEO) --- aluminum 6082 --- luminescent coatings --- phosphorescence --- anodized aluminum --- Mott-Schottky analysis --- defect --- annealing --- titanium dioxide --- anatase and rutile --- surface treatment --- wear --- medical engineering --- aluminum --- titanium --- Al7075 alloy --- aluminum oxide --- molten salt --- microhardness --- radio frequency magnetron sputtering (RFMS) --- calcium-phosphate (CaP) coating --- magnesium --- plasma electrolytic oxidation --- SiO2 particle --- corrosion resistance --- wear resistance --- micro arc oxidation (MAO) --- Cu nano-layer --- hydrophilic surface --- apatite --- in vitro bioactivity --- antibacterial properties --- PEO --- LDH --- active protection --- corrosion --- aluminium --- biodegradable implants --- magnesium alloy --- micro-arc oxidation --- Taguchi method --- SBF --- in-vivo test --- biodegradability --- plasma electrolytic oxidation (PEO) --- aluminum 6082 --- luminescent coatings --- phosphorescence --- anodized aluminum --- Mott-Schottky analysis --- defect --- annealing --- titanium dioxide --- anatase and rutile --- surface treatment --- wear --- medical engineering --- aluminum --- titanium --- Al7075 alloy --- aluminum oxide --- molten salt --- microhardness --- radio frequency magnetron sputtering (RFMS) --- calcium-phosphate (CaP) coating