Bacterial cellulose/Hydroxyapatite printed scaffolds for bone engineering.- Delivery of probiotic to microbiome by layer-by-layer encapsulation.- Modernization of the preservative solution for red blood cells by magnetite nanoparticles (ICNB).- Application of Infrared Spectroscopy to Study the Efefct of Magnitite nanoparticles (ICNB) on Molecular Structure of the Membranes of Preserved RBCs.- Morphological Сhanges in Gram-negative Microorganisms Treated with Silver and Copper Nanoparticles.- Regularities of obtaining metal-filled polymer composites.- Synthesis, Сharacterization and Antibacterial Activity of Нydroxyapatite Сomposite Materials Loaded with ZnO Nanoparticles.- Plasma electrolytic oxidation of TiZr alloy in ZnONPs-contained solution: structural and biological assessment.- Plasma electrolytic oxidation of the titanium-zirconium alloy (Zr60Nb21Ti19) for dental implant.- Nanostructured hemostatic sponges made from chitosan: structural and biological evaluation.- Composite ultrafiltration membrane incorporated with dispersed oxide nanoparticles.- The Laser-induced Coagulation Method of Biological Tissues.- Fullerene С60-containing hydroxyapatite/polymer polyelectrolyte composite for dental applications.- Graphene oxide influences on mechanical properties and drug release ability of hydroxyapatite based composite material.- Effect of surface modification of sputtered Ta2O5 magnetron ceramic coatings on the functional properties of antigen-presenting cells in vitro tests.- Features of Bacterial cellulose hydroxyapatite nanocomposites obtained by two different techniques.- Quality parameters of cellulose-chitosan based edible films for probiotic entrapment.- Synthesis of silver nanoparticles and therapeutic films for ophthalmology based on them.- A Hg (II) Fluorescent Sensor Based-on Bodipy Synthesized by Using Knorr Pyrrole.- Resistance of Hall Sensors Based on Graphene to Neutron Radiation.- Adhesive and Barrier Sublayers for Metal Nanofilms Active Elements of Hall Sensors.- Morphology and Luminescence Properies of Cellulose-CNT- BiPO4:Pr3+ Composites.- Time dependence of X-ray luminescence from yttrium oxide nanoceramics.- Electrochemical Formation of 'Synthetic Receptors' Based on Conducting Polymers.- Optical Immunosensor Based on Photoluminescent TiO2 Nanostructures for Determination of Bovine Leucosis Proteins. Model of Interaction Mechanism.- Electrical and photoelectric properties of Iron/Cromium oxide nanolayers composite structures.
Prof. Alexander Pogrebnjak is a Head of Nanoelectronics Department at Sumy State University, Ukraine. His scientific interests include nanocomposite and layered coatings; high-entropy alloy nitrides, improving the physical, mechanical and chemical properties of materials using nano-scale films, and modifying the properties of metals and alloys using high-power particle beams. Prof. Pogrebnjak has authored or co-authored 14 book chapters and over 300 peer-reviewed research articles.
Prof. Maksym Pogorielov, Ph.D., M.D., is Head of the Research Center and Leader of Biomaterials Research Group at Sumy State University, Ukraine, as well as Coordinator of Research Programs in biotech company NanoPrime (Debica, Poland). His research focuses on the development and assessment of biomaterials for medical purposes – tissue engineering constructions, dental and orthopedic implants, new coatings, hemostatic agents, drug delivery systems, antibacterial nanoparticles and nanosystems.
Dr. Roman Viter, Ph.D., is a leading researcher and head of the ‘Optical biosensors and functional nanomaterials’ laboratory at the Institute of Atomic Physics and Spectroscopy, University of Latvia. His research interests include the deposition of nanostructures via sol-gel and ALD, characterization of the structure and optical properties of metal oxide nanostructures, and non-invasive optical methods for monitoring the degradation of nanostructures.
This book covers novel and innovative technologies used in development, modeling, chemical/physical investigation and biomedical (in-vitro and in-vivo) trials of nanomaterials and nanocomposites. Novel methods for nanoparticle development and manufacturing are presented, as well as their safety and promising applications. In addition, the book highlights new frontiers in the use of metal / metal oxide nanoparticles, hierarchical nanostructures and organic coatings as sensors for detecting gases, inorganic and organic materials, including biosensors for bacteria and cancers. Organic nanoparticle composites for medical applications (tissue engineering, tissue replacement, regeneration, etc.), including hydroxyapatite NPs, are also covered, together with related in-vitro and preclinical investigations. In closing, the book shares recent findings on orthopedic and dental implant coatings using nanoparticles, their biological efficacy and safety.