Surface modification of titanium and titanium alloy by plasma electrolytic oxidation process for biomedical applications: A review

[1]  M. Kaseem,et al.  Recent progress in surface modification of metals coated by plasma electrolytic oxidation: Principle, structure, and performance , 2020 .

[2]  A. Fattah‐alhosseini,et al.  The effects of nano- and micro-particles on properties of plasma electrolytic oxidation (PEO) coatings applied on titanium substrates: A review , 2020 .

[3]  M. Kaseem,et al.  Plasma electrolytic oxidation of Ti-25Nb-xTa alloys in solution containing Ca and P ions , 2020 .

[4]  D. Kent,et al.  Additive manufacturing of low-cost porous titanium-based composites for biomedical applications: Advantages, challenges and opinion for future development , 2020 .

[5]  H. Choe,et al.  Plasma electrolytic oxidation of Ti-6Al-4V alloy in electrolytes containing bone formation ions , 2020 .

[6]  T. Clyne,et al.  The incorporation of particles suspended in the electrolyte into plasma electrolytic oxidation coatings on Ti and Al substrates , 2020 .

[7]  Jiechao Jiang,et al.  Investigation of the plasma electrolytic oxidation mechanism of titanium , 2019, Applied Surface Science.

[8]  M. Kaur,et al.  Review on titanium and titanium based alloys as biomaterials for orthopaedic applications. , 2019, Materials science & engineering. C, Materials for biological applications.

[9]  N. Rajendran,et al.  Surface Modification Methods for Titanium and Its Alloys and Their Corrosion Behavior in Biological Environment: A Review , 2019, Journal of Bio- and Tribo-Corrosion.

[10]  J. Roche,et al.  In-depth study of the influence of electrolyte composition on coatings prepared by plasma electrolytic oxidation of TA6V alloy , 2019, Surface and Coatings Technology.

[11]  Boris E. Burakov,et al.  Advanced Materials , 2019, Springer Proceedings in Physics.

[12]  V. Migonney,et al.  Review of titanium surface modification techniques and coatings for antibacterial applications. , 2019, Acta biomaterialia.

[13]  K. Subramani,et al.  Titanium surface modification techniques for dental implants—From microscale to nanoscale , 2018 .

[14]  F. Gordillo-Delgado,et al.  Effect of the voltage pulse frequency on the structure of TiO2 coatings grown by plasma electrolytic oxidation , 2017 .

[15]  A. Rogov,et al.  The Role of Cathodic Current in Plasma Electrolytic Oxidation of Aluminum: Phenomenological Concepts of the "Soft Sparking" Mode. , 2017, Langmuir : the ACS journal of surfaces and colloids.

[16]  Ju-liang He,et al.  Optical emission spectroscopic determination of the optimum regions for micro-arc oxidation of titanium , 2017 .

[17]  T. Belmonte,et al.  High-Frequency-Induced Cathodic Breakdown during Plasma Electrolytic Oxidation , 2017 .

[18]  H. Choe,et al.  Electrochemical characteristics of Ti-6Al-4V after plasma electrolytic oxidation in solutions containing Ca, P, and Zn ions , 2017 .

[19]  T. Lampke,et al.  Electrolyte influence on ignition of plasma electrolytic oxidation processes on light metals , 2017 .

[20]  S. Ramesh,et al.  Effects of anodisation parameters on thin film properties: A review , 2017 .

[21]  Tinghao F. Wang,et al.  The effects of anion deposition and negative pulse on the behaviours of plasma electrolytic oxidation (PEO)—A systematic study of the PEO of a Zirlo alloy in aluminate electrolytes , 2017 .

[22]  S. Durual,et al.  Synthesis by anodic-spark deposition of Ca- and P-containing films on pure titanium and their biological response , 2016 .

[23]  W. Ping,et al.  Effect of NaAlO2 concentrations on the properties of micro-arc oxidation coatings on pure titanium , 2016 .

[24]  A. Matthews,et al.  Characterization and corrosion evaluation of TiO2:n-HA coatings on titanium alloy formed by plasma electrolytic oxidation , 2015 .

[25]  T. Belmonte,et al.  Effect of cathodic micro-discharges on oxide growth during plasma electrolytic oxidation (PEO) , 2015 .

[26]  T. Belmonte,et al.  Influence of electrolyte ageing on the Plasma Electrolytic Oxidation of aluminium , 2015 .

[27]  D. Strekalina,et al.  The evidence of cathodic micro-discharges during plasma electrolytic oxidation of light metallic alloys and micro-discharge intensity depending on pH of the electrolyte , 2015 .

[28]  G. Thompson,et al.  Plasma electrolytic oxidation of titanium in a phosphate/silicate electrolyte and tribological performance of the coatings , 2014 .

[29]  Qingbiao Li,et al.  Effects of cathodic voltages on structure and wear resistance of plasma electrolytic oxidation coatings formed on aluminium alloy , 2014 .

[30]  Fuzhu Han,et al.  Effects of the ratio of anodic and cathodic currents on the characteristics of micro-arc oxidation ceramic coatings on Al alloys , 2014 .

[31]  M. Sandhyarani,et al.  Role of electrolyte chemistry on electronic and in vitro electrochemical properties of micro-arc oxidized titania films on Cp Ti , 2013 .

[32]  S. Rohani,et al.  Effect of duty cycle and applied current frequency on plasma electrolytic oxidation (PEO) coating growth behavior , 2013 .

[33]  M. Usta,et al.  Characterization and formation of hydroxyapatite on Ti6Al4V coated by plasma electrolytic oxidation , 2013 .

[34]  Ju-liang He,et al.  Microscopic observations of osteoblast growth on micro-arc oxidized β titanium , 2013 .

[35]  Fu-ping Wang,et al.  Preparation and characterization of HA microflowers coating on AZ31 magnesium alloy by micro-arc oxidation and a solution treatment , 2013 .

[36]  H. Habazaki,et al.  Formation and characterization of wear-resistant PEO coatings formed on β-titanium alloy at different electrolyte temperatures , 2012 .

[37]  S. Shrestha,et al.  Microstructure and multi-scale mechanical behavior of hard anodized and plasma electrolytic oxidation (PEO) coatings on aluminum alloy 5052 , 2012 .

[38]  Hua Wu,et al.  Effects of Current Density on Microstructure of Titania Coatings by Micro-arc Oxidation , 2012 .

[39]  Y. Aoki,et al.  Cathodic pulse breakdown of anodic films on aluminium in alkaline silicate electrolyte – Understanding the role of cathodic half-cycle in AC plasma electrolytic oxidation , 2012 .

[40]  M. Bahrololoom,et al.  Microstructure and wear resistance of oxide coatings on Ti–6Al–4V produced by plasma electrolytic oxidation in an inexpensive electrolyte , 2011 .

[41]  S. Stojadinović,et al.  Plasma electrolytic oxidation of titanium in heteropolytungstate acids , 2011 .

[42]  S. Stojadinović,et al.  Characterization of oxide coatings formed on tantalum by plasma electrolytic oxidation in 12-tungstosilicic acid , 2011 .

[43]  M. Shokouhfar,et al.  Investigation of the voltage and time effects on the formation of hydroxyapatite-containing titania prepared by plasma electrolytic oxidation on Ti–6Al–4V alloy and its corrosion behavior , 2011 .

[44]  Fu-ping Wang,et al.  Effects of cathode pulse at high frequency on structure and composition of Al2TiO5 ceramic coatings on Ti alloy by plasma electrolytic oxidation , 2011 .

[45]  M. Shokouhfar,et al.  Preparation of ceramic coating on Ti substrate by Plasma electrolytic oxidation in different electrolytes and evaluation of its corrosion resistance , 2011 .

[46]  B. Kasalica,et al.  Characterization of the plasma electrolytic oxidation of aluminium in sodium tungstate , 2010 .

[47]  J. A. Curran,et al.  Evaluation of micromechanical behaviour of plasma electrolytic oxidation (PEO) coatings on Ti–6Al–4V , 2010 .

[48]  B. Kasalica,et al.  Luminescence properties of oxide films formed by anodization of aluminum in 12-tungstophosphoric acid , 2010 .

[49]  Jun Liang,et al.  Effect of pulse frequency on the microstructure, phase composition and corrosion performance of a phosphate-based plasma electrolytic oxidation coated AM50 magnesium alloy , 2010 .

[50]  A. Yerokhin,et al.  Spectroscopic study of electrolytic plasma and discharging behaviour during the plasma electrolytic oxidation (PEO) process , 2010 .

[51]  Yingjun Wang,et al.  Effect of frequency on the structure and cell response of Ca- and P-containing MAO films , 2010 .

[52]  Y. Aoki,et al.  Influence of Phosphate Concentration on Plasma Electrolytic Oxidation of AZ80 Magnesium Alloy in Alkaline Aluminate Solution , 2010 .

[53]  Chih-Hsin Tang,et al.  Micro-arc oxidation of β-titanium alloy: Structural characterization and osteoblast compatibility , 2009 .

[54]  G. Thompson,et al.  Investigation of the growth processes of coatings formed by AC plasma electrolytic oxidation of aluminium , 2009 .

[55]  H. Habazaki,et al.  Spark anodizing behaviour of titanium and its alloys in alkaline aluminate electrolyte , 2009 .

[56]  Xiaohong Wu,et al.  Effects of cathode current density on structure and corrosion resistance of plasma electrolytic oxidation coatings formed on ZK60 Mg alloy , 2009 .

[57]  C. Low,et al.  Plasma electrolytic oxidation (PEO) for production of anodised coatings on lightweight metal (Al, Mg, Ti) alloys , 2009 .

[58]  A. Singh,et al.  Ti based biomaterials, the ultimate choice for orthopaedic implants – A review , 2009 .

[59]  G. Thompson,et al.  Transmission electron microscopy of coatings formed by plasma electrolytic oxidation of titanium. , 2009, Acta biomaterialia.

[60]  Q. Cai,et al.  Study on the microstructure and corrosion resistance of ZrO2-containing ceramic coatings formed on magnesium alloy by plasma electrolytic oxidation , 2009 .

[61]  Limin Chang Growth regularity of ceramic coating on magnesium alloy by plasma electrolytic oxidation , 2009 .

[62]  Jian-feng Li,et al.  Micro arc oxidation of S-containing TiO2 films by sulfur bearing electrolytes , 2009 .

[63]  G. E. Thompson,et al.  Incorporation of zirconia into coatings formed by DC plasma electrolytic oxidation of aluminium in nanoparticle suspensions , 2008 .

[64]  O. R. Mattos,et al.  Influences of ion migration and electric field on the layered anodic films on Al–Mg alloys , 2008 .

[65]  Xuetong Sun,et al.  Tribological Behaviour of Ceramic Coatings Formed on Titanium Alloy through Miro-Arc Oxidation Technique , 2007 .

[66]  Litian Hu,et al.  Improvement of corrosion properties of microarc oxidation coating on magnesium alloy by optimizing current density parameters , 2007 .

[67]  Yaming Wang,et al.  Fretting wear behaviour of microarc oxidation coatings formed on titanium alloy against steel in unlubrication and oil lubrication , 2006 .

[68]  S. Xin,et al.  Influence of cathodic current on composition, structure and properties of Al2O3 coatings on aluminum alloy prepared by micro-arc oxidation process , 2006 .

[69]  Jian-feng Li,et al.  Study on the preparation of titania films for photocatalytic application by micro-arc oxidation , 2006 .

[70]  V. V. Khokhlov,et al.  Model concepts on the mechanism of microarc oxidation of metal materials and the control over this process , 2006 .

[71]  T. Coradin,et al.  Sol-gel chemistry in medicinal science. , 2006, Current medicinal chemistry.

[72]  Jianbo Wang,et al.  Ultra-hard ceramic coatings fabricated through microarc oxidation on aluminium alloy , 2005 .

[73]  Ying Chen Book Review: Mechanical Alloying and Milling. By C. Suryanarayana. , 2005 .

[74]  P. Chu,et al.  Surface modification of titanium, titanium alloys, and related materials for biomedical applications , 2004 .

[75]  Bo Jiang,et al.  Controlled synthesis of microarc oxidation coating on Ti6Al4V alloy and its antifriction properties , 2004 .

[76]  A. Matthews,et al.  Discharge characterization in plasma electrolytic oxidation of aluminium , 2003 .

[77]  G. Sundararajan,et al.  Mechanisms underlying the formation of thick alumina coatings through the MAO coating technology , 2003 .

[78]  A. Matthews,et al.  Kinetic aspects of aluminium titanate layer formation on titanium alloys by plasma electrolytic oxidation , 2002 .

[79]  Yong Han,et al.  Synthesis of nanocrystalline titania films by micro-arc oxidation , 2002 .

[80]  Jiechao Jiang,et al.  Electrolytic plasma processing for cleaning and metal-coating of steel surfaces , 2002 .

[81]  W. Xue,et al.  Structure and properties characterization of ceramic coatings produced on Ti–6Al–4V alloy by microarc oxidation in aluminate solution , 2002 .

[82]  W. Xue,et al.  Microstructure and Phase Composition of Microarc Oxidation Coatings Formed on Ti–6Al–4V Alloy in Aluminate Solution , 2001 .

[83]  Y. Hirata,et al.  Micro-arc discharge phenomena , 2000 .

[84]  A. Matthews,et al.  Characterisation of oxide films produced by plasma electrolytic oxidation of a Ti–6Al–4V alloy , 2000 .

[85]  A. Matthews,et al.  Deposition of layered bioceramic hydroxyapatite/TiO2 coatings on titanium alloys using a hybrid technique of micro-arc oxidation and electrophoresis , 2000 .

[86]  A. Matthews,et al.  Plasma electrolysis for surface engineering , 1999 .

[87]  M. McKee,et al.  Chemical modification of titanium surfaces for covalent attachment of biological molecules. , 1998, Journal of biomedical materials research.

[88]  A. Yerokhin,et al.  Phase formation in ceramic coatings during plasma electrolytic oxidation of aluminium alloys , 1998 .

[89]  A. Hofmann,et al.  Conversion film formation on titanium anodes in acetonitrile at high voltages , 1995 .

[90]  E S Rosenberg,et al.  Microbial differences in 2 clinically distinct types of failures of osseointegrated implants. , 1991, Clinical oral implants research.

[91]  G. Thompson,et al.  Formation of relatively pure alumina films by anodic polarization , 1987 .