Journal of Surface Engineered Materials and Advanced Technology

Journal of Surface Engineered Materials and Advanced Technology

ISSN Print: 2161-4881
ISSN Online: 2161-489X
www.scirp.org/journal/jsemat
E-mail: jsemat@scirp.org
Citations    
"Formation of TiO2 Nanotube Layer by Anodization of Titanium in Ethylene Glycol-H2O Electrolyte"
written by Alain Robin, Michele Bernardes de Almeida Ribeiro, Jorge Luiz Rosa, Roberto Zenhei Nakazato, Messias Borges Silva,
published by Journal of Surface Engineered Materials and Advanced Technology, Vol.4 No.3, 2014
has been cited by the following article(s):
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[1] 1 Workshop de Engenharia de Materiais FEG-UNESP
[2] Morphological, structural and optical properties of dye-doped graphene-supported TiO2 nanotubes for solar water splitting applications
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[3] An overview of noble-metal-free nanostructured electrocatalysts for overall water splitting
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[4] Microstructured TiO2 coatings by anodization of Ti6Al4V with oxalic acid
Palma, L García-González… - Applied Physics A, 2023
[5] Cellular responses to nanoscale substrate topography of TiO2 nanotube arrays: cell morphology and adhesion
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[6] Fabrication and characterization of superhydrophobic and slippery liquid infused porous surfaces (SLIPS) for corrosion protection of stainless steel
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[7] Electrochemical Development of Ti [O. sub. 2] Arrangements on Ti-6Al-4V Surface and its In Vitro Corrosion Studies in Simulated Body Fluid.
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[8] Nanotubos de TiO2 carregados com híbridos pirazol-tetrazólicos: um potencial sistema contra infecção bacteriana
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[9] Corrosion Behavior of Anodic Self-Ordered Porous Oxide Layers on Stainless Steel
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[10] Design and development of defect rich titania nanostructure for efficient electrocatalyst for hydrogen evolution reaction in an acidic electrolyte
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[11] Photocatalytic degradation of triclocarban in aqueous solution using a modified zeolite/TiO2 composite: kinetic, mechanism study and toxicity assessment
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[12] Electrochemical Development of TiO2 Arrangements on Ti-6Al-4V Surface and its In Vitro Corrosion Studies in Simulated Body Fluid.
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[13] 전기화학적 하이포아염소산 생산을 위한 Multi-layered Sb-SnO2/IrTaOx/TNT 전극 개발
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[14] Biological efficacy of perpendicular type-I collagen protruded from TiO 2-nanotubes
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[15] Synthesis of titanium nanotubes (TNT) and its influence on electrochemical micromachining of titanium
2020
[16] Effect of Temperature and Anodizing Potential on the Photocatalytic Activity of TiO2 Nanotubes
2020
[17] FABRICATION OF PdNPs DECORATED TiO2 NANOTUBES BY ELECTRODEPOSITION METHOD AS ANTICANCER MATERIALS
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[18] Ultrathin multilayer Sb-SnO2/IrTaOx/TiO2 nanotube arrays as anodes for the selective oxidation of chloride ions
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[19] Establishment of perpendicular protrusion of type I collagen on TiO2 nanotube surface as a priming site of peri-implant connective fibers
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[20] Etude, réalisation et caractérisation des couches minces de TiO2 nanotubulaires dopées et non dopées pour application microbatteries au lithium
2019
[21] Investigation of TiO2 Nanotubes Formation on the Surface of Pure Ti and Ti6Al4V Alloy
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[22] Establishment of perpendicular protrusion of type I collagen on TiO 2 nanotube surface as a priming site of peri-implant connective fibers
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[23] Titanyum yüzeylerinde nanotübüler yapı geliştirilmesi ve plazma yüzey modifikasyonu
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[24] Microstructure and Electrochemical Behavior of TiO2 Nanotubes Coated on Titanium-Based Substrate Before and After Thermal Treatment
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[25] Cellular Response to Semi-ordered and Biomimetic Nanotubular Surfaces
2018
[26] Surface Modification of Titanium for Hard-Tissue Engineering Applications
2018
[27] Utilization of Electrolyte Solution in Nanotube Formation on Ti-6Al-4V Metal Alloy
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[28] The microstructure and mechanical properties of titanium dioxide nanotubes synthesized in the fluoride-based electrolyte
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[29] Effect of electrochemical reduction on the structural and electrical properties of anodic TiO2 nanotubes
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[30] CAN TITANIUM ANODIZATION LEAD TO THE FORMATION OF ANTIMICROBIAL SURFACES?
CAN TITANIUM ANODIZATION LEAD TO THE FORMATION OF ANTIMICROBIAL SURFACES?, 2018
[31] Titanium dioxide nanotubes functionalized with Cratylia mollis seed lectin, Cramoll, enhanced osteoblast-like cells adhesion and proliferation
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[32] An immutable array of TiO2 nanotubes to pressures over 30 GPa
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[33] A first insight on the bio-functionalization mechanisms of TiO2 nanotubes with calcium, phosphorous and zinc by reverse polarization anodization
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[34] A first insight on the bio-functionalization mechanisms of TiO 2 nanotubes with calcium, phosphorous and zinc by reverse polarization anodization
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[35] Dependence of Nanotextured Titanium Orthopedic Surfaces on Electrolyte Condition
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[36] Фотокаталітичні покриви змішаними оксидами на основі титан (IV) оксиду для екотехнологій
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