Coatings and Films

Design and synthesis of advanced polymeric hybrids and their assembly into functional nanostructures for applications ranging from nanomedicine to materials science Research Design, synthesis and characterization of smart polymers Design, synthesis and characterization of dendrimers and polymeric hybrids Stimuli responsive self-assembly and disassembly Utilization of smart polymers as selective drug delivery systems Read More >

Microfluidics-based tissue engineering. Recreating stem cell niches, microfluidics bioreactors for tissue engineering. Nanotechnological strategies for engineering thick cardiac tissue. Engineering a 3D neuronal network for spinal cord and brain regeneration. Fabrication of Nanoelectronics/engineered tissue hybrids. Developing smart delivery systems that recruit stem cells to defected organs. Email: tdvir@tauex.tau.ac.il Phone: 03-6406514 Another phone: 03-6408604 Website: https://dvirlab.wixsite.com/dv… Office: […] Read More >

Research: Biomaterials (e.g. electrochemically-assisted deposition of calcium phosphates) and medical devices. Bio-Ferrography (e.g. for orthopaedic applications and cancer diagnostics). Environment-induced degradation of materials and hydrogen interaction with materials. Electrodeposition and electroless plating of special alloys (e.g. rhenium-based) and electropolishing. Failure analysis. Quality control of raw materials and products; consultation services for materials and processes selection. Read More >

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The central dogma in the study of protein folding suggests that the thermodynamically-favorable state of proteins under physiological conditions is their folded one. However, there are number of cases in which the favorable states of proteins are rather unfolded, partially folded (e.g., “molten globular”), or misfolded (e.g., nonspecific aggregates or amyloid fibrils). These observations lead […] Read More >

Research My group’s research activity mainly focused on preparation and characterization of novel nitrogen-rich materials for fire-extinguishing and other applications, preparation of new materials for therapy and biomedical imaging and development of new chemosensors for forensic and other applications. Design, synthesis and characterization of nitrogen-rich materials Design, synthesis and evaluation of chemosensors for forensic and […] Read More >

As part of his work he studies the electronic, magnetic, mechanical, and electro-mechanical properties of materials at the nanoscale. Using advanced computational platforms his group studies many physical phenomena including electron dynamics in open quantum systems, quantum interference and coherent phenomena in circular molecular junctions, friction at nanoscale interfaces between layered materials and chemisorption on […] Read More >

We believe that revealing the growth mechanism of such materials will enable the controlled growth of atomic films with the desired phase, number of layers, chemical composition (alloys and dopants) and thus, dictate the electrical, optical and chemical properties. Therefore, the group’s research is dedicated to the rational growth of atomic-films and to explore the […] Read More >

Educator, Researcher, Engineer, Entrepreneur Energy, Electronics, Storage, Communications Fields of Current Interests: Energy Storage Systems, Fast Charging, Second-life Batteries, Batteries SOH (State-of-Health) and Degradation Models, Novel Active Materials for Use in Batteries. Additional Fields: Electronic Systems for Control of Storage and Communication Systems. Academic and Professional Experience -1991- Tel-Aviv University, Tel-Aviv, Israel; Department of Electrical […] Read More >

Preparation of inorganic, colloidal nanocrystals and studies of their physical properties – noble metals, magnetic metals, various types of oxides, semiconductors https://www.youtube.com/watch?… Sudies of magnetization dynamics and spin polarized transport in arrays of magnetic nanoparticles Development of transparent electrodes based on metal nanowires, produced by a wet chemical method Studies of nanoscale ferroelectricity Studies of […] Read More >

Research topic: Neurodegenerative diseases, etiology and new treatments. Research methods: Stem cells, Gene therapy, peptides, transgenic mice, animal models of Neurodegenerative diseases Main projects in the lab include: Induction of neurogenesis and transplantation of various adult stem cells in animal models of neurodegenerative diseases. Development of new therapies, small molecules, peptides and genes, for neurological […] Read More >

Research Novel Nano materials synthesis (Nanowires) in advanced methods in solid/liquid/gas states and Chemo Physical characterization Synthesis of “Intelligent” Nano materials with optical, electrical and magnetic controlled properties Development and construction of electronic Nano devices for sensing of Chemical and Biological spices Development of Nano Pillars for monitoring of In-cell parameters Development of Nano devices […] Read More >

Research Interests: Two-nucleon correlations The Eva experiment Exp-044/TJNAF – Triple coincidence Big Bite as p/n detector Big Bite – Auxiliary plan Exp 97-106 Exp 01-015 (SRC) Read More >

Research Interest Bio- and Molecular Electronics The research in our group focuses on several aspects related to bio- and molecular electronics The on going projects are: (i) Construction and characterization of molecular and bio-photonic based devices. We utilize a novel vertical molecular transistor to investigate key issues in molecular electronics. Among the ongoing research projects […] Read More >

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Research Interests: Ferroelectricity. Nanodomain reversal effect in ferroelectrics. High Voltage Atomic Force Microscopy; New generation of photonic devices based on nanodomain engineering; Studies of physical properties of biological materials developed for medical implants; Electron emission spectroscopy of High-K ultrathin multilayer dielectric stacks for microflash memory cells; High current density ferroelectric electron cathodes for microwave tubes, […] Read More >

Research Interest Nano-chemical processes for Microelectronics and integration of biological material on chip for acute toxicity detection Nano-chemistry for electronics applications- Physical and electrical characterization of electronic devices for CMOS technologies made by various chemical techniques such as self assembled monolayers and surface catalyzed auto catalytic electrochemical processes.   The research involves studying of the […] Read More >

Research Interest Nanotribology (theory) My research effort in the past few years has focused on a molecular level description of processes occurring between and close to interacting surfaces which is needed to first understand, and later manipulate friction. Friction is present in a great number of physical systems and plays a central part in phenomena […] Read More >