Royalty Report: Electrical & Electronics, Semiconductors, Fabrication – Collection: 3038


Curated Royalty Rate Report
Category: Technology Licenses, Created On: 2022-04-28, Record Count: 6


This collection of transactions and supporting information was developed using our AI algorithm to curate similar royalty reports into a cohesive collection to support your licensing, transfer pricing or other transaction scenarios where documented royalty rates and/or deal terms are important.
Category: Technology Licenses
Created On: 2022-04-28
Record Count: 6

Primary Industries

  • Electrical & Electronics
  • Semiconductors
  • Fabrication
  • Material Composite
  • Chemicals
  • Coating
  • Solar
  • Energy Resources & Svcs
  • Alternative and Renewable Energy

IPSCIO Report Record List

Below you will find the records curated into this collection.  This summary includes the complete licensed property description so that you can review and determine if this collection covers the topics, technology or transaction type that is relevant for your needs.  The full report will include all relevant deal data such as the royalty base, agreement date, term description, royalty rates and other deal terms.  For reference, here is a sample of a full IPSCIO curated royalty rate report: Sample Report

IPSCIO Record ID: 3038

License Grant
The Licensor received a payment from the Japanese Licensee that completes the upfront portion of the payment for their exclusive license to our copper inks and pastes technology based on nanoparticles of the metal for printed electronics.
License Property
The low processing temperature of the ink enables the use of thin-film substrates. Promising applications include fabrication of conductive lines on thin-film solar cells.

IPSCIO Record ID: 3143

License Grant
The Licensor signed a License Agreement with the Chinese Licensee for solar ink and paste technology.
License Property
Nanoparticle ink technology formulations of aluminum, copper, nickel and silver will be delivered using aerosolized jet, inkjet and spray coating methods and other non-contact printing techniques that will enable ultra-thin silicon wafers to be used for photovoltaic (PV) applications.  

Currently, solar cell wafers must be thick enough to survive the direct contact metallization processes, which use screen printing equipment that comes in direct contact with the wafer and can exert enough force to cause ultra-thin wafers to break. Silicon is the largest cost in conventional solar cell production and the primary material in solar cells, making up 50-60% of overall cost, by APNT's estimates.

Field of Use
Using methods such as inkjet, aerosol jet and spray coating — all non-contact methods — will allow solar companies to save substantial material costs on the amount of silicon used by enabling the use of thin wafers.

IPSCIO Record ID: 33390

License Grant
The Israelis Company entered into an exclusive license agreement with the Israelis University, for three patents and patent applications that cover the unique method of manufacturing the Companys consumable nano-conductive ink for the 3D printing of electronic circuits.
Field of Use
This agreement pertains to 3D printing within the electronic (circuits) industry.

IPSCIO Record ID: 107

License Grant
The UNIVERSITY grants to Licensee an exclusive License to the Licensor's interest in valuable intangible property rights in Patent Rights and technical information to make, have made, import, have imported, use, market, sell, and distribute Licensed Product, and practice Licensed Method..
License Property
U.S. Patent No. 7,015,052, issued on March 21, 2006, entitled 'Screen-Printing Techniques for the Fabrication of Organic Light-Emitting Diodes.'  Accordingly, an object of the present invention is to provide a fast, simple, and inexpensive method for fabricating OLEDs, organic light-emitting diodes.
Field of Use
Licensed Field Organic Light-Emitting Diodes in printed electronic displays and all other printed electronic components.

IPSCIO Record ID: 26338

License Grant
The Latvian Licensor further hereby grants to Licensee a nontransferable, exclusive, perpetual license to use Licensor's technical information and other technology existing at the date hereof to put metals with a thickness of 0.1 microns to 5 microns on flexible polymeric substrates in order to produce and sell products, including without limitation the ability to put active and passive electronic components on thin substrates.
License Property
The Licensor, has over a period of years developed and patented valuable technology for depositing various metals onto metal foils, films and fabrics in a vacuum.  The Licensor has developed technology for the deposition of various metals on metal foils and onto films. This technology which employs innovative equipment developed by the Licensor can be used in the production of copper laminates and foils.

Metals as used in this Agreement include, without limitation, copper, aluminum, chrome and lithium, and composites of one or more metals.

Products as used in this Agreement include, without limitation, flexible composites of metals and films, flexible printed circuits, Multichip Modules, single and several chip packages, batteries and displays for use within the electrical interconnect industry.

Field of Use
The Licensee, a leading maker and supplier of ceramics and metal coated foils, films, and fabrics desires to be licensed under the Licensor's patented technology for depositing various metals on metal foils and on polyester film in a vacuum in order to further develop the technology and to market products generated by this technology according to the terms of this Agreement.

IPSCIO Record ID: 26099

License Grant
University grants to Licensee an exclusive license under the Rice Intellectual Property to make, have made, use, import, offer for sale, sell, lease, or otherwise transfer the University's Licensed Products in the Field of Use in the Territory.
License Property
University is the owner of certain inventions, know-how and rights pertaining to the synthesis of uniform nanoparticle shapes with high selectivity, including without limitation all rights pursuant to the patent applications and issued patents listed.

Synthesis of Uniform Nanoparticle Shapes with High Selectivity – 60/911,721

Synthesis of Uniform Nanoparticle Shapes with High Selectivity 12/442,382

The Licensor is the owner of certain inventions and patent applications, know-how and rights pertaining to the synthesis of uniform nanoparticle shapes with high selectivity.
A Quantum Dot is a nanocrystal made of semiconductor materials that are small enough to exhitit quantum mechanial properties.

Nanoparticle are materials with features in the nanoscale, which features can be beneficial in a number of applications. Quantum dots are atomic crystals, tiny nanoparticles which can operate as up converters or down converters, emitting either photons or electrons when excited. The color of light emitted varies depending on the size of the quantum dot so that photonic emissions can be tuned by the creation of quantum dots of different sizes. Their unique properties as highly efficient, next generation semiconductors have led to the use of quantum dots in a range of electronic and other applications, including in the biomedical, display and lighting industries. Quantum dots also have applications in solar cells, where their characteristics enable conversion of light energy into electricity, with the potential for significantly higher efficiencies and lower costs than existing technologies, thereby creating the opportunity for a step change in the solar energy industry through the use of quantum dots in printed photovoltaic cells.

Field of Use
'Field of Use' means the manufacture and sale of quantum dots for electronic and medical applications. For the purposes of this Agreement, electronic applications shall exclude photovoltaic applications.

The Licensee is a nanotechnology company which designs, develops, produces, and supplies tetrapod quantum dots. The company’s tetrapod quantum dots are high performance variants of quantum dots that are nanoparticles of a semiconductor material, which emit light or fluoresce, when excited with energy. Its products are used for a range of applications in the life sciences, optoelectronics, photovoltaics, lighting, security ink, and sensor sectors.

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