Advanced Circuits


4 Results were found on Technologies


High Speed Photonic Digital-To-Analog Conversion

The Technology A novel integrated optical modulator based on a multi-electrode Mach-Zehnder modulator has been developed at Tel-Aviv University. The device has superior performance in terms of linearity, dynamic range and implementation simplicity. These improvements are achieved by utilizing a unique mapping method between the analog input and the digital sequence applied to the device, […] Read More >


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:

Logic element based on Electrically Formed Nanowire (EFN) device

An electrostatically formed nanowire transistor, includes a source, a drain, and multiple gates surrounding a doped silicon region. The gates include a top gate, a bottom gate, and side gates. The gates induce a channel in said doped silicon region. The channel has a width which is decreased by negative biasing of the side gates, […] Read More >

Leading Researchers:

Subharmonic Wireless Locking of THz transmitter

A novel method for wireless sub-harmonic locking a radiating free-running VCO single source or phased-array at THz frequenciesNeed and AdvantagesAlthough many significant challenges remain, results suggest that CMOS THz ICs are inevitability. Still, the lack of efficient, high-power (watt-level) sources remains the most conspicuous impediment to further progress. Promising applications for terahertz technology include non-ionizing […] Read More >

Prof. Amrani Ofer

Microwave and digital communications, specializing in the various aspects of equalization, coding, modulation, and combinations thereof Email: Phone: 03-6407766 Fax: 03-6407095 Office: Computer and Software Engineering, 307   Read More >

Prof. Croitoru Nathan

Thin Films — Methods of deposition and growing, transport properties of metallic and semiconductors, electronic memories, optical filters, guides, modulators solar cells and thin film transistors and detectors. Optical fibers and waveguides for infrared. – Materials with low attenuation for mid infrared up to 12 µm. Methods for drawing fibers and hollow fibers for use […] Read More >

Prof. Dvir Tal

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: Phone: 03-6406514 Another phone: 03-6408604 Website:… Office: […] Read More >

Prof. GANNOT Israel

Research Interests: Optical biopsy -optical diagnostic methods in medicine Laser tissue interaction Fibers and waveguides for medical applications Lasers and optics in medicine 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. 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. Iraqi Fuad A.

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Prof. Nathan Menachem

Research Interests: 3D Thin-film batteries / microbatteries Snapshot spectral imaging Compact THz frequency multipliers MEMS and MOEMS Biosensors Modeling and Simulations in Materials Science Read More >

Prof. Peled Emanuel

Electrochemistry of Lithium Batteries and Fuel CellsIntercalation process of lithium in carbon and graphite in liquid nonaquous solutions and polymer electrolytes.Preparation and characterization of high capacity carbons to be used as an anode in Lithium-Ion batteries.Modification and characterization of graphite for advanced anode in Lithium-Ion batteries.Study of mass and charge transport in composite polymer electrolytes.Development […] Read More >

Prof. Rishpon Judith

Current research includes: Novel immunosensors based on enzyme channeling. Biosensors based on enzyme cascades. Electrochemical and optical investigation of the electron transfer reactions of macrocyclic and polymeric mediators and application of their catalytic activity in biosensors. NO sensors; Investigation of the action of the enzyme nitric oxide synthase; measurement of NO in cancer cells. Electrochemical […] Read More >

Leading Researchers:

Nanoscale electrical characterization of nanostrctures and devices

Lab Description Nanoscale electrical characterization of nanostrctures and devices, Kelvin probe force microscopy (KPFM), Nanowires and nanowire transistors, Solar Cells, Organic semiconductor devices and materials, Biological Field effect Transistors.           Available Research Services We offer services for AFM and KPFM measurements- Semiconductor and organic nano-structures characterization using ambient and ultra high vacuum (UHV) AFM and Kelvin […] Read More >

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