Nanotechnologies related to electronics & microelectronics Technology Offers

By Type

Yissum - Research Development Company of the Hebrew University posted this:

Fast, Room Temperature Single Pass Readout of NV-center Spin State in Diamond Fast, Room Temperature Single Pass Readout of NV-center Spin State in Diamond Project ID : 14-2019-6698

Yissum - Research Development Company of the Hebrew University posted this:

Thick optical crystals for optical parametric amplifiers (original title of project: Optical Parametric Amplifier with Large Aperture) The invention: • Diffusion bonded periodically poled crystals can increase the effective crystal aperture with high gain and good beam profile • (Method to tune crystal materials to optically amplify light signals) Project ID : 14-2018-5685

Center for Technology Transfer and Commercialization of Novosibirsk State University posted this:

New class of computing devices with memory based on graphene nanocomposites Models of mem-capacitors - computing devices with memory based on graphene nanocomposites are developed in the laboratory of the university (Russia). This class of devices has an architecture with significantly greater speed and lower power consumption compared to traditional ones. It allows avoiding the memory-processor bandwidth problem of the device. The laboratory is looking for partners for technical cooperation, licensing or commercial agreements with technical assistance.

New class of computing devices with memory based on graphene nanocomposites

Yissum - Research Development Company of the Hebrew University posted this:

Hydro-Printing Conductive Patterns onto 3D Structures Transfer process based on dissolved film with conductive pattern in water bath. Keywords: hydroprinting, conductive structures, three-dimensional, low tech Project ID : 9-2016-4364

Hydro-Printing Conductive Patterns onto 3D Structures

Yissum - Research Development Company of the Hebrew University posted this:

Quantum Nano Materials for Photo-Catalytic Applications Composition of metal-semiconductor nanoparticles for the generation of reactive species (radicals, peroxides) in solution. This project covers different embodiments that have other researchers involved on different subsets (therapeutics, photoinitiators). For example, there is a biological aspect, whereby a biological assay is a result of a pathway started with reactive species generation. Project ID : 9-2015-3191

Quantum Nano Materials for Photo-Catalytic Applications

Yissum - Research Development Company of the Hebrew University posted this:

Chip-Scale Atomic Clock for Frequency, Wavelength, and Time Referencing Applications This is targeted as a spinout but also could be an R&O. Project ID : 43-2018-4622

Chip-Scale Atomic Clock for Frequency, Wavelength, and Time Referencing Applications

Yissum - Research Development Company of the Hebrew University posted this:

Rubidium Lead Chloride Perovskite Materials for Photovoltaics Rubidium Lead Chloride Perovskite Materials for Photovoltaics Project ID : 9-2017-4470

Rubidium Lead Chloride Perovskite Materials for Photovoltaics

Yissum - Research Development Company of the Hebrew University posted this:

Colloidal Semiconductor Nanorods core-island-shell nanocrystals Project ID : 14-2018-4648

Yissum - Research Development Company of the Hebrew University posted this:

3D Printing of 100% Wood and Wood Plastic Composites 3D Printing of 100% Wood and Wood Plastic Composites Project ID : 9-2018-4541

3D Printing of 100% Wood and Wood Plastic Composites

Universidade de Santiago de Compostela posted this:

High Quality Thin-films (down to 4nm) by Water-based Chemical Solution Cheaper alternative, versatile, with the quality required for fundamental studies and applications. - Very high quality of epitaxial (bi)layers, down to 4 nm, comparable to PLD. - Outstanding homogeneity (over 1" substrate) and very affordable alternative to high-vacuum tech. Some examples: - Yttrium Iron Garnet (YIG) over GGG; ZnO over sapphire. - Ferroelectric BiFeO3 on LSMO. Manganites, cobaltites and their combinations - Combined with MBE, e.g. Multilevel device integrated on silicon: Small, 2017, 1701614, cover (http://doi.org/10.1002/smll.201770208).

High Quality Thin-films (down to 4nm) by Water-based Chemical Solution

Universidade de Santiago de Compostela posted this:

New Thermal Sensing for Microcalorimetry and Microfluidics (ERC-PoC project)The prototype developed within ERC-PoC "ANTS" project, has demonstrated its sensitivity for a new concept of microcalorimeters, as well as providing advantages in microfluidics. We aim to: a) Integrate this technology within microfluidic devices or applications where size and fast response time are crucial. b) Develop a High-Throughput Calorimetry going beyond the current capabilities on ITC. > Sensing element. Ferromagnetic permalloy line 4x28 µm x 20 nm thick: affordable, miniaturization… Sensor was fabricated in a single deposition. > Temporal response. Milliseconds, to stimulus >10 microwatts; further improvements are in progress. > Easy adoption. Compatible with standard configuration of microcalorimeters. > IPR: EP, US, CN, KR, JP

New Thermal Sensing for Microcalorimetry and Microfluidics (ERC-PoC project)

Universidad de Alcalá-OTRI posted this:

Very active aluminum catalysts in glycidyl methacrylate ring opening polymerization, with application in electronic devices The research group in "Organometallic Complexes in Catalytic Processes" of the University of Alcalá presents the synthesis of aluminum aryloxide compounds and their application in glycidyl methacrylate ring opening polymerization processes. The most frequent use of this polymer is as photocurable material with optimal characteristics for use in electronic devices. The research group looks for companies in the electronic industry, especially those dedicated to the preparation of electronic components, to reach patent licensing agreements, collaborative or commercial agreements with technical assistance.

Very active aluminum catalysts in glycidyl methacrylate ring opening polymerization, with application in electronic devices

Yissum - Research Development Company of the Hebrew University posted this:

Conductive Metallized DNA-Based Constructs for Molecular Electronics DNA constructs that with metal nanoparticles that can be used as interconnects for molecular electronics. Keywords: DNA, molecular electronics, interconnects, Project ID : 31-2016-4289

Conductive Metallized DNA-Based Constructs for Molecular Electronics

Fundació URV posted this:

NEW PROCEDURE FOR OBTAINING MONOLAYERS OF FUNCTIONALIZED NANOPARTICLES This new procedure (not described in the bibliography) allows the manufacture of monolayers of metal nanoparticles linked by molecules of organic compounds. As you can see in Specifications, this procedure consists in two successive processes. One of the main advantages of this technology is the minimization of impurities in the functionalized monolayer compared to commonly used techniques. Besides, the manufacture of Schotty diode with this new procedure has been shown for the first time. In the same line, this procedure allows the use of monolayers of metal nanoparticles for metabolite detection. These are two unique and differents aspects of this technology in relation to other known used techniques.

Universidad de Alcalá-OTRI posted this:

Disposable electrodes based on filtered nanomaterials.A Spanish research Group from Analytical Chemistry, Physical Chemistry and Chemical Departments at University of Alcalá (Spain) has designed and developed different disposable electrodes constituted exclusively by conducted nanomaterials for analytical measurement of electroactive molecules for (bio-) sensoric in relevant areas such as health, agri-food and environmental. The group is looking for companies in the chemistry, clinical, agri-food and environmental sectors to reach licensing agreements or collaboration and commercial agreements for technical assistance.

Disposable electrodes based on filtered nanomaterials.

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