Material Sciences

 

23 Results were found on Technologies

Leading Researchers:
11-2007-122

Cobalt tungsten phosphorous electroless deposition process and materials

The Technology The new technology of electroless cobalt has lower resistance and enhanced electromigration resistance compared to alternative barriers that are used today. Therefore, for submicron technology, the new technology yields better global interconnect delay, improved reliability and increased resistance to corrosion. Furthermore, it is well conformed to the use since the deposition is a […] Read More >

Leading Researchers:
11-2011-127

Surface Plasmon Amplification of stimulated emission

We make a step towards quantum nanoplasmonics: surface plasmon fields of a nanosystem are quantized and their stimulated emission is considered. We introduce a quantum generator for surface plasmon quanta and consider the phenomenon of surface plasmon amplification by stimulated emission of radiation (spaser). Spaser generates temporally coherent high-intensity fields of selected surface plasmon modes […] Read More >

Leading Researchers:
3-2011-145

Nano-Reinforcement of Adhesives, Plastics, Paints and Coatings

Technology Reinforcement of common and proprietary polymers (plastics) and composite materials for coatings and casts with nano-additives in small percentages leads to improvement of anti crack, anti-scratch, anti-rust and anti-moisture properties. Novel, patented, self-assembled organic aromatic peptide nanotubes and nanospheres exhibit exceptional thermal and chemical durability and outstanding mechanical properties. These nanostructures have demonstrated increase […] Read More >

Leading Researchers:
11-2012-336

Metal Nanowire based Transparent Electrodes

Metal nanowire films are increasingly used as transparent electrodes in many applications, including touch screens, displays, smart windows, EMI shielding and others.The group of Prof. Gil Markovich from Tel Aviv University developed a unique process for growing patterned conductive transparent silver nanowires thin film electrodes. In this unique process the nanowires grow in-situ, directly on […] Read More >

Leading Researchers:
3-2012-387

Super Organic Tunable and White-Light Emitting Diode (OLED) by a Natural Chromophore Separation Matrix

The Technology A bio-organic framework of mucin, controlling electronic interactions between two or more energetically interacting materials, is presented.  The hydrophilic mucins act as a host material for introduced nano-sized hydrophobic dyes.  These can be combined in any proportion to generate photo-luminescent emitters fully tunable to any visible wavelength.  The technology can provide a process […] Read More >

Leading Researchers:
3-2012-389

Rhenium Nanostructures and Electrodeposition

The TechnologyWe present low-cost, efficient, long life-time nanostructured Re-alloy coatings for catalyzing low temperature dry reforming of methane (DRM).   Nickel, cobalt, and iron are used as standard catalysts in DRM, however, they are subject to rapid deactivation through coking. As a result, the reaction temperature for DRM routinely exceeds 800°C to avoid the coke […] Read More >

7-2013-455

Molecular Electronics and Transistors based on Peptide Nanostructures

The TechnologyProprietary peptide nanostructures1 can be readily fabricated on various surfaces including electrodes2,4. A physical vapor deposition method (PVD) allows the precise control on the molecular dimensions of the structures using industry standard techniques. These nanostructures were used to fabricate metallic nanowires1 as well as trilayer metal-peptide-metal nano-cables3. Electrodes and storages devices were modified with […] Read More >

Leading Researchers:
11-2013-522

High Temperature superconducting wires on Sapphire

Next generation of superconducting wires – double-sided coated superconductor tapes on sapphire that will be much simpler to fabricate, will have a lower cost, and much lower AC losses compared with current technologies. We are targeting the electricity market addressing a growing problem of blackouts due to power surges. Using our innovation to introduce revolutionary […] Read More >

11-2021-1544

Protection of Oxygen-Sensitive-Enzymes by Peptide Hydrogel

Molecular oxygen (O2) is a highly reactive oxidizing agent harmful to many biological and industrial systems. A simple encapsulation in a protective aqueous environment of O2  -sensitive reactions is of need. Self-assembling peptide-based hydrogels are simple hydrogels that can be combined with a wide variety of reagents and are able to encage O2 and significantly limit its […] Read More >

11-2021-1544

Anti-Oxidation Agent to be Incorporated Into Cosmetics Leading to More Stable and Longer Shelf-Life Products

Oxidation is the reaction of Oxygen with a wide array of reactants. In cosmetics, product oxidation leads to spoilage of ingredients used in the manufacturing products, the inactivation of oxygen-sensitive enzymes, shortening of product shelf-life, and discolorations of end-product. Self-assembling peptide-based hydrogels are simple hydrogels that can be combined with a wide variety of ingredients […] Read More >

Prof. Even Uzi

Read More >

Prof. Gazit Ehud

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 >

Prof. GERBER Alexander

1.  Nanoscale magnetic systems. a) Spin-dependent electronic transport in ultra-thin magnetic films and granular ferromagnet – normal metal and ferromagnet – insulator mixtures. b) Giant magnetoresistance (GMR) and tunneling magnetoresistance (TMR). c) Extraordinary Hall effect in ultra-thin films and heterogeneous mixtures. d) Magnetic properties of single nanoscale magnetic clusters and their arrays. c) Development of […] Read More >

Prof. Golberg Alexander

Our goal is to generative fundamental knowledge on biological systems organization and function, and to apply this knowledge to develop technologies that address critical challenges in energy generation and health. Our laboratory conducts research in a wide range of research subjects including: BioEnergy systems Bioenergy systems efficiency analysis We develop models to analyze the efficiency […] Read More >

Prof. Goldbourt Amir

Research in the group of Prof. Amir Goldbourt: Our group develops and applies solid-state NMR techniques to study structure and dynamics at atomic-resolution for a variety of materials across different disciplines. Structural chemistry: We develop novel solid-state NMR techniques to study the chemical environment of metal ions, halogens and other NMR-active isotopes that experience strong […] Read More >

Prof. Golodnitsky Diana

Research My major research activities are focused on synthesis, characterization of materials and study of ion-transport phenomena in new nanostructured electrodes and solid electrolytes for energy-storage devices. The microelectronics industry is continually reducing the size of its products in order to produce small devices such as medical implants, microsensors, self-powered integrated circuits or microelectromechanical systems. […] Read More >

Prof. Gozin Michael

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 >

Prof. Hod Oded

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 >

Prof. Ilan Micha

The research in my laboratory is centered around two main areas: 1) on the taxonomic level – the phylum Porifera (sponges); and 2) on Symbiosis between marine organisms (usually with a sponge as one of the interacting organisms). Over the years we have thus studied many sponge species and their associates: from microorganisms (cyanobacteria, heterotrophic bacteria, and fungi) through […] Read More >

Prof. Iraqi Fuad A.

Read More >

Leading Researchers:
12-2011-225

Synthesis of Organic Compounds

Custom synthesis of organic compounds   Industrial Research Services: We offer services for custom synthesis of small organic compounds. Our laboratories in Tel Aviv University have all the basic state-of-the-art instrumentation for synthetic capabilities. The School of Chemistry also has an Analytical Research and Instrumentation Unit, which provides services for organic analyses. The Department of […] Read More >

Leading Researchers:
12-2011-224

High Throughput Screening (HTS) of Novel Bioactive Compounds

The primary objective of the HTS Center is to act as a core unit focused on coordinating the multidisciplinary search for novel compounds with potential biological and pharmacological properties. The Center offers a highly versatile fully automated robotic system suitable for providing high throughput screening capabilities. Offered Services include:1. Adaptation and implementation of bioassay on […] Read More >

Leading Researchers:
12-2011-223

Characterization of organic, inorganic and biological materials by Solid state NMR

Characterization of organic and inorganic materials by Solid state NMR Magic-angle spinning solid-state NMR (MAS SSNMR) is a well-established technique for the characterization of the atomic chemical environment in crystalline, non-crystalline and non-soluble large variety of materials such as simple molecules, drug formulations, glasses, ceramics, zeolites, perovskites, batteries and capacitors, powder formulations, nanocrystals and biological […] Read More >

Leading Researchers:
12-2011-220

State-of-the-art X-ray Scattering Systems

Laboratory of Experimental BiophysicsSchool of Physics and Astronomy, Faculty of Exact ScienceThe Center for NanoScience and NanoTechnology   Services:Small Angle X-ray Scattering (SAXS), Wide Angle X-ray Scattering (WAXS), Grazing Incident Small Angle X-ray Scatter (GISAXS) X-ray scattering provide structural information (shape and size) in non-destructive and stain free conditions. Small angle scattering is an ideal characterization […] Read More >

Leading Researchers:
12-2011-230

Nanometer Scale Optics of Objects and Devices

The NanoPhotonics LaboratoryThe NanoPhotonics Laboratory research is focused on the optics of nanometer scale objects and devices. In particular, the research involves nano-photonic components for telecommunication and sensing, Bragg and Photonic Crystals (PhC) based waveguides and resonators, slow light, optical polymers, nonlinear optics and secure communication.  Offered Industrial Services: Optical chip design and simulations  Spectral […] Read More >

Sorry, no results were found.

Sign up for
our events

    Close
    Life Science
    Magazine

      Close
      Hi-Tech
      Magazine

        Close