Royalty Report: Semiconductors, Fabrication, Material Composite – Collection: 28401

$150.00

Curated Royalty Rate Report
Category: Technology Licenses, Created On: 2022-04-28, Record Count: 20

Description

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: 20

Primary Industries

  • Semiconductors
  • Fabrication
  • Material Composite
  • Solar
  • Electrical & Electronics
  • Alternative and Renewable Energy
  • Energy Resources & Svcs
  • Polymer
  • Energy & Environment
  • Technical Know How
  • Coating
  • Lighting
  • Molecular
  • Device
  • Laser
  • Optical
  • Energy Conversion
  • Chemicals
  • Coating surface
  • Advertising

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: 28401

License Grant
The University hereby grants to the Licensee and its Affiliates an exclusive, worldwide License to make, have made, use, offer for sale, have sold, sell and import Products within the Field and within the territory for a period of eight years from the effective date of this Agreement. If in the final year of the License Term Company is actively marketing and selling Products, then the License Term shall extend for another eight year term. Company shall have the exclusive right to grant SubLicenses to third parties.
License Property
The technology being Licensed is based on Assistant Professor of Chemistry’s “electronic glue” chemistry. This technology, management believes, has various commercial applications where more efficient transfer of electrical charges between nanocrystals is desired, such as printed semiconductors, roll-to-roll printed solar cells and printed nano-sensors.

Licensed Patents
Application Number Title Type Country Status Date Filed
PCT/US10/32246 Materials and Methods for the Preparation of Nanocomposites PCT United States Pending 4/23/2010
61/214,434 Materials and Methods for the Preparation of Nanocomposites Provisional United States Expired 4/23/2009
61/264,790 Materials and Methods for the Preparation of Nanocomposites Provisional United States Expired 11/28/2009

PCT/US10/32246  Disclosed herein is an isolable colloidal particle comprising a nanoparticle and an inorganic capping agent bound to the surface of the nanoparticle, a solution of the same, a method for making the same from a biphasic solvent mixture, and the formation of structures and solids from the isolable colloidal particle. The process can yield photovoltaic cells, piezoelectric crystals, thermoelectric layers, optoelectronic layers, light emitting diodes, ferroelectric layers, thin film transistors, floating gate memory devices, imaging devices, phase change layers, and sensor devices.

Field of Use
“Field” shall mean all fields of use other than devices and materials used and sold for their Peltier and/or Seebeck properties.

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.

IPSCIO Record ID: 26585

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 University's Licensed Products in the Field of Use in the Territory, with the right to sub-license, during the Term of this Agreement.
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 exhibit 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 photovoltaic cells and the manufacture and sales of quantum dots for photovoltaic applications.

Licensee shall demonstrate a working model of a thin film quantum dot solar cell product using the University's Intellectual Property by April 30, 2010. This working model shall achieve 6% efficiency at a manufactured cell cost of <$1.50/Watt, and have a consumer warranty regarding product lifetime performance comparable to existing photovoltaics.

IPSCIO Record ID: 7494

License Grant
The Licensor hereby grants to the Licensee and its affiliates a royalty bearing, paid up, non-exclusive, worldwide license under Licensor Background Technology and Licensor Development Technology to make, have made, use, sell, lease, offer for sale, offer for lease, import, and Otherwise Dispose of Licensed Products and Licensed Processes in the Field, limited to the Military Field of Use. The Licensor also grants to the Licensor the right to grant sublicenses, of the same scope (and for no longer than the term of) as the license for Licensed Products and Licensed Processes granted herein to the Licensee, to third parties.
License Property
The proprietary technology relates to integrated electronics and photonics devices (optoelectronic) on substrates, referred to as POET Technology. The POET (Planar Opto Electronic Technology) platform is a patented semiconductor fabrication process that uses gallium arsenide technology to combine electronic and optical elements on a single integrated circuit.
Field of Use
The field of use includes the information, processes, methods, devices and apparatus involved in the technology of making, designing or using integrated electronics and optoelectronic semiconductor devices on Gallium Arsenide substrates.

Gallium arsenide (GaAs) is a compound of the elements gallium and arsenic. It is a III/V semiconductor, and is used in the manufacture of devices such as microwave frequency integrated circuits, monolithic microwave integrated circuits, infrared light-emitting diodes, laser diodes, solar cells and optical windows.

IPSCIO Record ID: 223115

License Grant
The United Kingdom Licensor grants to Licensee of the Netherlands an indivisible, non-exclusive license under the Basic Patent Rights, without the right to grant sublicenses, to manufacture, to use and to sell or otherwise dispose of Remuneration Products.

Licensor grants a worldwide, indivisible, non-exclusive license under Licensors Licensed Patent Rights, without the right to grant sublicenses, to manufacture, to use and to sell or otherwise dispose of Products in any and all countries of the world.

License Property
The Basic Patent Rights are for Electroluminescent devices and Method of manufacturing of electroluminescent devices.

The Licensed Patent Rights of either Party shall mean Patent Rights other than Basic Patent Rights relating to the manufacture, structure and operation of polymer electroluminescent devices and entitled to receive the benefit of a priority date before January 1, 2001.

The term Remuneration Products shall mean Products covered by any claim of the Basic Patent Rights.

The Products mean complete polymer electroluminescent devices and arrays of such devices in the form of layers or layer structures incorporating at least a light emitting polymer layer and electrode layers and further optionally incorporating other layers such as for example substrate and supporting layers or protective layers. The term Products excludes devices which are High Information Content Displays. High Information Content Displays are displays with more than 100,000 picture elements (pixels).

Field of Use
Licensee is in the business of manufacturing and selling polymer electroluminescent devices.  The patents focus is semiconductors.

IPSCIO Record ID: 28691

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 University's Licensed Products in the Field of Use in the Territory, with the right to sub-license, during the Term of this Agreement.

The Licensee has obtained the exclusive rights to License and subLicense to develop, manufacture, market and exploit the Licensor's inventions, patent applications and any issued patents in the case of the Licensee, for the manufacture and sale of photovoltaic cells and photovoltaic applications and in the case of Licensee for the manufacture and sale of quantum dots for electronic and medical applications (excluding photovoltaic applications).

License Property
The University is the owner of certain inventions and patent applications, know-how and rights pertaining to the synthesis of uniform nanoparticle shapes with high selectivity.

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.

With respect to the Licensor's patent applications, the Licensor made a provisional filing for an invention disclosure titled “synthesis of uniform nanoparticle shapes with high selectivity” with the United States Patent and Trademark Office on April 13, 2007 and a subsequent utility filing on April 11, 2008 under the Patent Cooperation Treaty.

PCT enables the U.S. applicant to file one application, 'an international application,' in a standardized format in English in the U.S. Receiving Office (the U.S. Patent and Trademark Office), and have that application acknowledged as a regular national or regional filing in any State or region that is party to the PCT. Dr. Michael Wong is a director of the Licensee Parent and is the inventor of the Licensor’s patent application Licensed by the Licensee.

Patents
Rice
Tech ID
Invention
Disclosure
Received
Invention Disclosure Title Patent Title Filing Date Serial Number Patent Type Country Inventors Pa
27014 8/31/06 Synthesis of Uniform Nanoparticle Shapes
with High Selectivity
Synthesis of Uniform Nanoparticle Shapes
with High Selectivity
4/13/07 60/911,721 Provisional U.S. Michael Wong,
Subashini Asokan
Synthesis of Uniform Nanoparticle Shapes with high Selectivity 4/11/08 PCT/US2008/060129 PCT PCT Michael Wong, Subashini Asokan On an “as is” basis as of the Effective Dae

Field of Use
“Field of Use” means the manufacture and sale of photovoltaic cells and the manufacture and sales of quantum dots for electronic and medical applications.

The Licensee is a start-up solar technology and quantum dot manufacturing firm with the opportunity to acquire a significant amount of both quantum dot and solar photovoltaic market share by commercializing a low cost quantum dot processing technology and a low cost quantum dot based third generation photovoltaic technology/solar cell, pursuant to an exclusive license agreement the University Licensor.

Our objective is to become the first bulk manufacture of high quality tetrapod quantum dots and the first solar cell manufacturer to be able to offer a solar electricity solution that competes on a non-subsidized basis with the price of retail electricity in key markets in North America, Europe, the Middle East and Asia.

IPSCIO Record ID: 28130

License Grant
Licensor grants to Licensee a non-sublicensable, worldwide, royalty-bearing License under the Licensed FLT Fine Line Technology Patents, to make or have made, use, offer for sale, sell, and import Licensed FLT Products.
License Property
Licensed FLT Products means capacitive touch sensors comprising fine lines of copper metal printed on flexible plastic film.

Fine Line Technology Patents. Technology – A conductive metal layer is used in the manufacture of printed circuit boards, aerials, and antennae such as those found in mobile telephones, radio frequency identification devices (RFIDs), smart cards, contacts for batteries and power supplies, arrays of contacts for flat screen technologies (liquidcrystal displays, light emitting polymer displays and the like), electrodes for biological and electrochemical sensors, smart textiles and decorative features.

US Patent No 8435603  Formation of solid layers on substrates
US Patent No 8519048  Formation of solid layers on substrates

Field of Use
Licensee wishes to use the Licensed FLT Patents to commercialize the Licensed FLT Products. A conductive metal layer is used in the manufacture of printed circuit boards, aerials, and antennae such as those found in mobile telephones, radio frequency identification devices (RFIDs), smart cards, contacts for batteries and power supplies, arrays of contacts for flat screen technologies (liquidcrystal displays, light emitting polymer displays and the like), electrodes for biological and electrochemical sensors, smart textiles and decorative features.

IPSCIO Record ID: 282935

License Grant
The English Licensor grants to the Japanese Licensee, and the Licensee accepts, a non-exclusive licence under the Patents and any Know-how, upon and subject to the provisions of this Agreement
(a)
to make or manufacture LEP Devices, which devices may implement the TMA architecture and/or use the TMA algorithm (but not to manufacture or have manufactured LEP material or Total Matrix Addressing Driver Chips, or any other semiconductor device).
(b)
to make or manufacture Finished Products incorporating LEP Devices manufactured under the licensed rights granted;
(c)
to use, sell and otherwise deal in the LEP Devices and Finished Products made or manufactured in accordance with the licensed rights granted and (b) in any and all countries of the world;
(d)
to sublicense (either in whole or in part) its licensed rights to manufacture LEP Devices (as granted to a sub-contractor, for the sole purpose of having LEP Devices manufactured on Licensee’s behalf, provided that, in respect of those sub-contractors which are located outside the geographical region of Japan.
License Property
LEP means light emitting polymer material formed from an Electroluminescent Polymer.

Electroluminescent Polymer means any material deposited by solution processing that is electroluminescent and where at least one ingredient is a polymer.

LEP Device means an electronic device (which device is covered by one or more Valid Claim) in which light is generated by LEP to produce (i) a visible representation comprising Glass, a Passive Matrix Module or an Active Matrix Module, as the case may be, and (ii) backlighting to, and solely to the extent the same is necessary for, such visible representation (but excluding any lighting device intended for use primarily as a source of area illumination), which devices may be driven by a TMA Driver Chip and shall be of any resolution and shall have a viewable diagonal dimension which is either (a) equal to or in excess of Ten (10') inches, or (b) equal to less than Twenty Seven (27') inches, whichever the Licensee shall have elected prior to entering into Commercial Production, by serving prior written election on CDT in accordance with this agreement.

TMA means Total Matrix Addressing.

Patent means the patents and patent applications listed; all future patents and patent applications that may be filed by or on behalf of Licesor or a Licensor Group member which are related to LEP display architecture and/or manufacture and which Licensor or a Licensor Group member exclusively owns or jointly owns, has an unrestricted right and ability to grant licenses thereto and such right to grant licences is not conditional upon Licensor or a Licensor Group member making any form of payment or other form of compensation to any relevant third party; and any extension of any such patent and any patent obtained in pursuance of any such application.

4,923,288 – Optical modulators based on polymers
5,247,190 – Electroluminescent devices
5,399,502 – Method of manufacturing of electrolumineschent devices

Finished Product means any article (whether or not complete) produced by or for the Licensee or any member of the Licensee’s Group which incorporates an LEP Device and additional components.

Total Matrix Addressing Driver Chips means row and column driver chips interfacing with either a separate or integrated processor chip capable of running any non-negative matrix factorisation algorithm (or any other algorithm that gives positive values) such that the said row and column driver chips can drive more than one row and column at a time within one subframe. (“TMA Driver Chips” shall be construed accordingly). Total Matrix Addressing is a a form of passive matrix driving where more than one row is addressed at a time, resulting in reduced power consumption and extended panel lifetime.

Field of Use
This agreement pertains to the semiconductor industry.

IPSCIO Record ID: 27747

License Grant
The Licensor grants to Licensee and its Affiliates the exclusive right and license, to make, have made, use, import or sell, including but not limited to in combination with Licensee’s intellectual property, the Licensed Products worldwide, subject to the patent coverage of the Licensed Patents, including the right to grant Sublicenses.
License Property
The Licensor has developed certain inventions pertaining to the production of silicon wafers using a nanocatalytic wet-chemical etch.

“Nanoparticle-Based Etching of Silicon Surfaces” 12/053,372
“Anti-reflection Etching of Silicon Surfaces Catalyzed with Ionic Metal Solutions”12/053,445
“Wet-Chemical Systems and Methods for Producing Black Silicon Substrates”PCT/US10/56417
“Efficient Black Silicon Photovoltaic Devices with Enhanced Blue Response”PCT/US11/27479

Field of Use
The Field involves Equipment and Chemicals to produce photovoltaic cells.

“7AC Field” means the field of (A) combination photovoltaic and solar thermal modules that provide both electricity and hot liquid, and/or (B) any system that uses combination photovoltaic and solar thermal modules that provide both electricity and hot liquid whereby the hot liquid is used for hot liquid dehumidification. The term “hot liquid” specifically excludes hot air.

“Liquid-Phase-Deposited Passivation” means passivation of photovoltaic cell by applying a liquid to the silicon surface, wherein the liquid produces a surface coating layer that provides passivation, with or without subsequent annealing steps.

Licensee is interested in acquiring certain rights to Licensor's Inventions and plans develop and commercialize a line of products related to the production of Black Silicon. The photovoltaic cells integrating the Licensed Intellectual Property using diffused emitter and Liquid-Phase-Deposited Passivation.

IPSCIO Record ID: 7493

License Grant
The Licensor, a University, hereby grants to the Licensee an exclusive as to all parties, including Licensor, world-wide, transferable License in the Field, with the unrestricted right to subLicense at any tier to any person or party under the Patent Rights, to discover, develop, make, have made, import, have imported, use, have used, sell, have sold, offer for sale, have offered for sale, and otherwise exploit Products and to practice all other applications; and to copy, use, display, prepare derivative works of, and distribute all of any portion of Related Technology.
License Property
Product means any optoelectronic component or device for any product or any process in the Field, whose manufacture, use, sale or import would, absent the license granted hereunder, infringe one or more claims of the Patent Rights.

The Licensor has been engaged in basic research in the field of gallium arsenide-based technology for development of integrated optoelectronic components, and devices for communication.

Gallium arsenide (GaAs) is a compound of the elements gallium and arsenic. It is a III/V semiconductor, and is used in the manufacture of devices such as microwave frequency integrated circuits, monolithic microwave integrated circuits, infrared light-emitting diodes, laser diodes, solar cells and optical windows.

Field of Use
Field means all optical, electronic, and optoelectronic integrated circuit applications, including but not limited to components and devices for communications, computing, and imaging.

IPSCIO Record ID: 4456

License Grant
The Licensee has an exclusive worldwide license and rights to sublicense any and all intellectual property conceived or developed under its sponsorship at the University.
License Property
Currently, research and development of the licensee's flexible, thin-film organic photovoltaic (OPV) and inorganic Gallium Arsenide (GaAs) technologies is being conducted at University's (Licensor's) research facility under the seven year 2013 Research Agreement dated December 20, 2013.

OPV are Organic semiconductors made from carbon-rich compounds with a structure tailored to optimize a particular function, such as responsiveness to a particular range of visible light. The use of organic compounds as semiconductors for commercial applications is very new.

Field of Use
Licensee is using it in organic semiconductor based photovoltaic cell technology.

OPV are Organic semiconductors made from carbon-rich compounds with a structure tailored to optimize a particular function, such as responsiveness to a particular range of visible light. The use of organic compounds as semiconductors for commercial applications is very new.  The Licensee is using it in organic semiconductor based photovoltaic cell technology. A particular advantage of OPV technologies is the low cost of the materials used for the solar energy generating layers. Additionally, all of the fabrication temperatures are low and environmentally “green”, greatly reducing the ancillary costs required in conventional solar cell production.  Furthermore, the growth of the thin film layers can be accomplished directly onto the plastic or metal foils and therefore is no need for energy-intensive and expensive epitaxial growth required by inorganic semiconductors such as silicon or GaAs. Rather, there is the opportunity to “print” organic solar cells onto continuous rolls of plastic in an ultra-high-speed manufacturing process. The potential for printed electronics – making solar cells “by the kilometer” rather than on one substrate at a time – makes OPV a potentially revolutionary step in the widespread acceptance and deployment of solar energy. Since the organic films are see-through, lightweight and extremely thin (in this case the entire structure is only 0.1% the thickness of a human hair), they can be made semitransparent and adjusted to any desirable color. As a result, there are significant opportunities to achieve heretofore unrealizable applications such as car paint that allows vehicle coating to act as a source of power for an electric car; windows that can be coated with a clear semi-transparent film that captures photons from the sun to provide power for inside of the building, and fabric that can be made coated in order to make clothes, tents, flags, or lightweight roll-out power mats.

Since the organic films are see-through, lightweight and extremely thin (in this case the entire structure is only 0.1% the thickness of a human hair), they can be made semitransparent and adjusted to any desirable color. As a result, there are significant opportunities to achieve heretofore unrealizable applications such as car paint that allows vehicle coating to act as a source of power for an electric car; windows that can be coated with a clear semi-transparent film that captures photons from the sun to provide power for inside of the building, and fabric that can be made coated in order to make clothes, tents, flags, or lightweight roll-out power mats.

IPSCIO Record ID: 219597

License Grant
Pursuant to the Joint Venture agreement, upon the Japanese Licensor granting of sublicense to the New Joint Venture relating to LEP Polymer or ink containing the LEP Polymer.
License Property
The Licensor owns or controls technology regarding devices and related materials related to Polymer Light Emitting Diodes (PLED) and wish to cooperate with Licensee in order to facilitate the development and commercialization of PLED Materials in connection with the early establishment of the PLED industry.

“PLED Materials” means light emitting materials, materials related to light emission and ink formulations thereof. The term PLED Materials includes, but is not limited to

(a)
light emitting polymers, dendrimers and hybrids;

(b)
hole transport materials;

(c)
interlayer materials and buffer layer materials; and

(d)
ink formulations thereof.

Licensor is the owner of certain inventions relating to dendrimer materials, in respect of which Licensor has obtained and made applications for patent protection in various countries.

Licensor has acquired the exclusive right to sub-license certain inventions relating to dendrimer materials, in respect of which patent protection has been obtained or applied for in various countries.

Dendrimer means a molecule comprising one light emitting core and at least one conjugated and branched chain.

The products mean Dendrimers, Hybrids, Blends, Polymer Metal Complexes, Light Emitting Metal Complexes and Special Blends.

Field of Use
This agreement is for the field of light emitting materials and devices where light Is used as a means of communicating information to a display medium and the production of light for general illumination or other light applications including photovoltaic and other non-display/lighting organic semiconductor applications.

Our P-OLED technology has the potential to drive OLED adoption by significantly lowering the cost of producing OLED displays. P-OLED materials are solution processable, which enables them to be deposited on panels using processes such as high precision ink jet printing.

P-OLED materials can form stable solutions in organic solvents, making inks which can be deposited in pixel patterns using ink-jet and other printing techniques. Low-cost spin-coating is also available for monochrome or area color displays.

P-OLEDs are part of the family of Organic Light Emitting Diodes, or OLEDs, which are matrixes of organic diodes that emit light when an electric current flows. OLEDs are thin, lightweight and power efficient devices used in flat panel displays, or FPDs, and other applications. P-OLEDs offer an enhanced visual experience compared with alternative FPD technologies, such as liquid crystal displays, or LCD.

IPSCIO Record ID: 282868

License Grant
The English Licensor grants to the Japanese Licensee, and the Licensee accepts, a non-exclusive, non-tranferable and worldwide license under the Licensed Patents upon and subject to the provisions of this Agreement

(a)
to make or manufacture LEP Devices (but not LEP);

(b)
to incorporate the LEP Devices into Finished Products;

(c)
to design, develop, use, sell, offer for sale, distribute, import, export, Transfer and otherwise deal in the LEP Devices and Finished Products in any and all countries of the world; and

(d)
to have LEP Devices (but not LEP) made or manufactured for the Licensee, in whole or in part by a sub-contractor.

License Property
Licensor is the owner of inventions relating to electroluminescent polymer devices

LEP Device means an electronic device (of viewable diagonal dimension of 10 inches or more) in which light is generated by a LEP to produce a visible representation, which device is covered by one or more claims of the Licensed Patents.

LEP means light emitting polymer material.

Licensed Patents means all Patents that Licensor Group exclusively owns or jointly owns or shall so own and/or Licensor has or shall have sublicense rights and is generally free to license without any payment to a third party, filed prior to or after the Effective Date which are related to LEP Device architecture and/or manufacture and/or driving schemes for such LEP Devices and in the case of such driving schemes, those which are implemented directly on the LEP Device panel (including but not limited to those schemes utilising organic TFTs) but expressly excluding those Patents that are directed to driving schemes (or algorithms) which are implemented off the LEP Device panel (for the avoidance of any doubt, the Licensed Patents include Patents which are related to driving circuitry used in the Dispay Module).

US 5,523,555 – Photodetector device having a semiconductive conjugated polymer
US 5,698,048 – Photoresponsive materials
US 5,965,901 – Electroluminescent devices with voltage drive scheme

Finished Product means any article or device (whether or not in final form) made by or for the Licensee which incorporates an LEP Device and additional components.

Field of Use
“Display Module” means a LEP Device comprising a substrate incorporating where required by device architecture, electrodes, transport layer, interlayer, electroluminescent polymer, supporting layers and encapsulants, filters, all of which are inside of the panel, circuit boards, flexible connectors, together with the electronic drivers and other on-panel circuitry necessary to effect illumination of the display device including thin film transistors, polariser where this is attached to the panel.

IPSCIO Record ID: 89738

License Grant
Licensor and their Netherlands Affiliate hereby grants to Licensee and its Affiliates for the Term a nonexclusive license, with the right to sublicense, under the Licensed Claims to develop, make, have made, use, sell, offer to sell, lease, and import Licensed Products in the Territory and to develop and perform Licensed Processes in the Territory. Nothing in this Agreement is intended to grant a license to anyone to make, use, sell, offer to sell, lease, or import Equipment that infringes any patent owned by Licensor.
License Property
Licensed Product shall mean products comprising Permitted Structures that absent the license granted hereunder, would infringe one or more Licensed Claims.

Licensed Claims shall mean any and all non-Equipment claims entitled to priority to U.S. Serial No. 09/227,679 and/or 60/070,991, including, without limitation, non-Equipment claims in U.S. Patent Nos. 6,749,687 and 7,105,055.

6,749,687 –  In situ growth of oxide and silicon layers
7,105,055 – In situ growth of oxide and silicon layers

The lead technology, named Mears Silicon Technology™, or MST®, is a thin film of reengineered silicon, typically 100 to 300 angstroms (or approximately 20 to 60 silicon atomic unit cells) thick. MST® can be applied as a transistor channel enhancement to CMOS-type transistors, the most widely used transistor type in the semiconductor industrry.

Field of Use
This agreement pertains to the semiconductor industry.

IPSCIO Record ID: 161592

License Grant
Licensor grants under their patents personal, nonexclusive and nontransferable licenses to make, to have made, use, lease, offer for sale, sell and import products.
License Property
The products are a Superconductive Wire Product, Superconductive Wire within a System, and Systems Products including Superconductive Wire Product.

Yttrium-barium-copper oxide (YBCO) patents and patent applications are fundamental to the high temperature superconductor (HTS) industry.

The patents on HTS compounds include YBCO 123, barium-strontium-calcium-copper-oxide (BSCCO) 2212 and BSCCO 2223. The portfolio also contains patents on wire manufacturing methods, including the oxide-powder-in-tube (OPIT) technology and end-use applications ranging from communications and power generation to medical imaging and magnetic levitation.

Field of Use
Licensee is an industry leader in developing, manufacturing and marketing products utilizing superconducting materials for electric power applications.

IPSCIO Record ID: 166414

License Grant
Licensor grants to Licensee and its Subsidiaries a nonexclusive license under the Licensed Patents to make, use, import, offer to sell, sell and otherwise transfer Products.  Additionally, Licensor grants to Licensee and its Subsidiaries a nonexclusive license under the Licensed Patents the right to have Licensees Products made by another manufacturer for the use and/or lease, sale or other transfer only by Licensee and its Subsidiaries.  Such license shall further include the right to incorporate Products as components, subassemblies or subsystems in other products manufactured and/or sold by Licensee and its Subsidiaries.
License Property
The patents relate to coherent semiconductor injection laser array.  The invention relates to optical devices and more particularly relates to solid state lasers.

'Full Wafer Technology' shall mean a batch processing chlorine- assisted ion beam etching technique capable of producing more than one edge emitting semiconductor ridge waveguide laser having a gallium arsenide quantum well active region.

Field of Use
Licensee is in the semiconductor industry.

IPSCIO Record ID: 91122

License Grant
Licensor hereby grants to Licensee a worldwide, exclusive, revenue-bearing license under Licensor’s rights in the Patent Rights and the Know-How to (a) make, use, sell, offer for sale, import and export Licensed Products that are within the Field of Use, and (b) and to practice Licensed Processes in the Field of Use.
License Property
Licensor has developed and/or otherwise possesses rights to certain technology related to the manufacture of semiconductors and, in particular, photovoltaic platforms and devices.

The lead technology, named Mears Silicon Technology™, or MST®, is a thin film of reengineered silicon, typically 100 to 300 angstroms (or approximately 20 to 60 silicon atomic unit cells) thick. MST® can be applied as a transistor channel enhancement to CMOS-type transistors, the most widely used transistor type in the semiconductor industrry.

Patent 6,741,634; 6,830,984, 6,833,294; 6,878,678, 6,891,188

Field of Use
“Field of Use” means the manufacture and use of photovoltaic devices, and all solar energy applications.

IPSCIO Record ID: 5328

License Grant
Pursuant to the Assignment Agreement entered for Patent No. 5,254,237 which is entitled, Plasma Arc Apparatus for Producing Thin Film Diamond Coatings, was granted on October 19, 1993 to Licensor, the inventor of the original titanium nitride and thin film diamond coating processes.
License Property
The Diamond Coating Process includes, but is not necessarily limited to, low temperature titanium nitride, cobalt nitride, chromium nitride, ferroelectric coatings, piezoelectric coatings, diamond hard coatings and diamond semi-conductor substrates.  Thus there has been disclosed a unique plasma arc deposition system for producing diamond, doped diamond or diamond-like coatings on a substrate by pulsed plasma technique.  These techniques do not require or produce temperature rise at the substrate, allowing normally temperature sensitive substrates to be utilized.  Typical of substrates which bond readily to the thin film diamond coatings without degradation are zinc sulfide (ZnS) or zinc selenide (ZnSe), which are useful in infrared windows or laser components.  The system disclosed and described can be used in the development of products and materials such as producing on junction diodes of crystalline carbon, so that rectifiers able to withstand temperatures in the neighborhood of 1000 to 1500 degrees Fahrenheit are also possible. Insulated gate field effect transistors that can handle high source to drain potentials and provide high gain without seriously loading the signal source, while operating at elevated temperatures beyond those achievable with silicon devices, can be produced with the system described.  Many other diamond-like integrated circuit chips, such as light emitting diodes or diodes used in solid state lasers are possible. Since thick diamond layers of good optical clarity can be produced by the process described herein, among the new devices that have become possible is an optical modulator that depends upon the polarizing effects of electric fields upon light beams through the crystal lattice.  This property leads to the entirely new family of high-power, opto-electronic coupling, modulating, scanning and/or sensing devices based upon diamond semiconductors.  Many other semiconductor devices that can utilize the enhanced properties of diamond-like films can be produced with the invention disclosed and described herein.
Field of Use
The rights granted apply for producing diamond-like coatings.

IPSCIO Record ID: 6067

License Grant
The Licensor, a corporation 100% owned by the Licensee’s Chief Executive Officer,  has assigned to the Licensee the Patent and the inventions created using those rights pursuant to an Assignment.
License Property
Invention(s) means Substrate With Light Display; described in U.S. Patent Application No. 60/608,783, U.S. Patent Application No. 11/219,164 U.S. Patent Application No. 60/617,263 and U.S. Patent Application No. 60/804,224 and any related patents or patent applications. A display with light elements comprises a substrate layer and a display layer. The substrate layer comprises a power source, light elements interconnected to the power source, and a controller interconnected to both. The substrate layer may be formed of flexible material. The controller activates at least a first light element to a different illumination state relative to at least a second light element. The display layer covers a substantial portion of the substrate and contains text and/or graphics covering a portion thereof. The display layer may be formed of flexible material. The light elements are visible through the display layer. The power source may include a solar cell and/or a battery. When both a battery and solar cell are used the solar cell may recharge the battery to operate the light elements and controller in low light conditions.  The Company is developing solar and non-solar powered substrates that permit sign-quality graphics to be run through printers with electric lighting embedded in the substrate.

For example, retail establishments such as grocery stores and convenience stores generally use numerous different types of displays both for advertising and for conveying information. The displays may be shelf tags indicating a product and a price, floor displays, window displays, and numerous others. Similarly, posters may be used as displays for numerous types of establishments, including retail establishments, theaters, food service establishments, and many public or governmental displays to convey various types of information. Furthermore, numerous different types of vehicle-mounted displays exist, such as bumper stickers, window stickers, and others. Other types of vehicle-mounted displays include advertising displays mounted on the interior and/or exterior portions of vehicles, including taxi vehicles and public transit vehicles such as buses and trains. Displays may also be fixed to benches, buildings, street or lampposts, and hanging banners, to name but a few examples. [Para 4] Generally, such displays are static displays that are printed in a fixed manner. For example, a poster may have a printed display portion including text and/or graphics for use in an advertising promotion.

Field of Use
The Buyer is a Nevada corporation engaged in the business of providing energy-efficient and sustainable energy solutions by developing and implementing technology in three main areas  light emitting diode (LED) lighting, solar energy and infrared. Through its wholly-owned subsidiary, EvoLucia Lighting, Inc., the Company is developing and selling environmentally responsible, energy efficient lighting products that are based on the latest and most efficient light emitting diode (LED) technologies. The Company, through its wholly-owned subsidiary, has also developed technologies in the solar energy arena that improve the efficiency of solar energy production and delivery and have the potential for bringing solar power more quickly to grid parity.  The Company has also developed mercury cadmium telluride infrared cells that increase efficiencies in infrared technology and may provide opportunities for commercial applications of that technology.

IPSCIO Record ID: 368499

License Grant
Licensor of England, grants
—  an exclusive license under Licensed Patents to make, have made, use, sell and import PolyFluorene Based Materials in any and all countries of the world. This license includes process technology relating to the Suzuki Coupling reaction;

—  a non-exclusive license under Licensed Patents for all process technology relating to the Suzuki coupling reaction for use in making materials other than PolyFluorene Based Materials in any and all countries of the world;

—  a non-exclusive license under Licensor Patents to make, have made, use, sell and import PF Ink Jet Formulations in any and all countries of the world, provided that such Intellectual Property is wholly-owned and free to be licensed as of the date of this Agreement, or for later made inventions, as of the date of the invention;

—  a non-exclusive license under Licensor Patents relating to Spiro and IndenoFluorones to make, have made, use, sell or import LEPs containing spiro and indenofluorenes in any and all countries of the world, provided that those patents are wholly-owned and free to be sublicensed as of the date of this Agreement, or for later made inventions, as of the date of the invention; and

—  a non-exclusive license under Licensors intellectual property to make test devices for screening and developing new materials.

License Property
Licensor has the right to grant licenses under certain patents and Know-how relating to polyfluorene-based materials.

LEP means light emitting polymer relating to large molecule organic electroluminescent material.

Polyfluorene-Based Material means Polyfluorenes;  solid compositions containing Polyfluorenes in an amount of at least 1% by weight; and solutions containing Polyfluorenes not including formulations for ink jetting.

PF Ink Jet Formulations Means solutions containing Polyfluorenes for ink jet application.

Field of Use
The Parties are developing polymers for use in LEP displays, which are organic light-emitting displays (OLEDs).
OLED displays are expected to be deployed in instrument panels and portable electronics such as mobile phones and personal digital assistants, and eventually larger displays for personal computers and consumer products, where they could overtake liquid-crystal display (LCD) technology in the future.

As an emissive display, LEPs need no backlight, which means they can be thinner and lighter than LCDs, as well as more power-efficient. LEP displays are also brighter with richer color, offering sharp, high-contrast images that can easily be viewed from acute angles. Additionally, LEPs in liquid form are unique in that they can be ink-jet printed on glass and plastic, which is a technology advantage that could significantly change the way displays are produced and open new markets and opportunities.

The field of use is semiconductors and related devices.

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