His primary areas of investigation include Electrophoretic deposition, Thermogravimetric analysis, Scanning electron microscope, Composite number and Carbon nanotube. His research in Electrophoretic deposition intersects with topics in Chitosan, Deposition and Nanocomposite. His Thermogravimetric analysis research is multidisciplinary, relying on both Mineralogy and Analytical chemistry.
His work in Composite number tackles topics such as Fourier transform infrared spectroscopy which are related to areas like Nanotube. His work deals with themes such as Supercapacitor and Nanoparticle, which intersect with Carbon nanotube. His Nanotechnology study integrates concerns from other disciplines, such as Electrolyte and Electrochemistry.
Igor Zhitomirsky focuses on Electrophoretic deposition, Carbon nanotube, Supercapacitor, Composite number and Composite material. His Electrophoretic deposition research is multidisciplinary, incorporating elements of Deposition, Inorganic chemistry, Nanoparticle, Adsorption and Thermogravimetric analysis. His Thermogravimetric analysis research includes themes of Fourier transform infrared spectroscopy, Quartz crystal microbalance, Scanning electron microscope and Analytical chemistry.
His biological study spans a wide range of topics, including Electrochemistry, Cyclic voltammetry and Polypyrrole. As part of the same scientific family, Igor Zhitomirsky usually focuses on Supercapacitor, concentrating on Electrolyte and intersecting with Ceramic. His Composite number study combines topics in areas such as Chitosan, Monolayer and Biopolymer.
Igor Zhitomirsky mostly deals with Carbon nanotube, Supercapacitor, Electrophoretic deposition, Capacitance and Composite material. His studies deal with areas such as Dielectric spectroscopy, Nanoparticle, Cyclic voltammetry and Saturated calomel electrode as well as Carbon nanotube. His Supercapacitor research incorporates elements of Electrolyte, Nanocomposite, Nanotube and Polypyrrole.
The Electrophoretic deposition study combines topics in areas such as Deposition, Phosphate and Polymer. His study in Capacitance is interdisciplinary in nature, drawing from both Electrochemistry, Anode and Extraction. His study in the fields of Composite number and Stress under the domain of Composite material overlaps with other disciplines such as Drainage, Plume and Polygon mesh.
His primary scientific interests are in Electrophoretic deposition, Supercapacitor, Carbon nanotube, Composite material and Dispersion. Igor Zhitomirsky interconnects Conformal coating, Deposition, Adsorption and Polymer in the investigation of issues within Electrophoretic deposition. His Adsorption study incorporates themes from Electrolyte and Ceramic.
The concepts of his Supercapacitor study are interwoven with issues in Nanotube and Surface modification. Igor Zhitomirsky has researched Carbon nanotube in several fields, including Cyclic voltammetry and Polypyrrole. As part of one scientific family, Igor Zhitomirsky deals mainly with the area of Dispersion, narrowing it down to issues related to the Electrochemistry, and often Microstructure and Fourier transform infrared spectroscopy.
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Cathodic electrodeposition of ceramic and organoceramic materials. Fundamental aspects
Advances in Colloid and Interface Science (2002)
Application of electrophoretic and electrolytic deposition techniques in ceramics processing
Aldo R Boccaccini;Igor Zhitomirsky.
Current Opinion in Solid State & Materials Science (2002)
Electrophoretic deposition of biomaterials
A. R. Boccaccini;S. Keim;R. Ma;Y. Li.
Journal of the Royal Society Interface (2010)
ELECTROPHORETIC DEPOSITION OF HYDROXYAPATITE
I Zhitomirsky;L Gal-Or.
Journal of Materials Science: Materials in Medicine (1997)
Activated Carbon-Coated Carbon Nanotubes for Energy Storage in Supercapacitors and Capacitive Water Purification
Kaiyuan Shi;Meng Ren;Igor Zhitomirsky.
ACS Sustainable Chemistry & Engineering (2014)
Cellulose Nanocrystal Aerogels as Universal 3D Lightweight Substrates for Supercapacitor Materials
Xuan Yang;Kaiyuan Shi;Igor Zhitomirsky;Emily D. Cranston.
Advanced Materials (2015)
Cathodic electrodeposition of MnOx films for electrochemical supercapacitors
N. Nagarajan;H. Humadi;I. Zhitomirsky.
Electrochimica Acta (2006)
Electrodeposition of composite hydroxyapatite–chitosan films
Xin Pang;Igor Zhitomirsky.
Materials Chemistry and Physics (2005)
Electrophoretic deposition of composite hydroxyapatite–silica–chitosan coatings
K. Grandfield;I. Zhitomirsky.
Materials Characterization (2007)
Electrophoretic deposition of ceramic materials for fuel cell applications
I Zhitomirsky;A Petric.
Journal of The European Ceramic Society (2000)
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