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  • Scintillating solution for national security - Isis Innovation
    Fund University of Oxford Isis Funds Oxford University Consulting Services Academic consulting advice Academic Expertise Showcases Technical Services Technical Services Showcases OUC Clients For University members Contact OUC Innovation Consultancy Technology Transfer Commercialisation Training Technology Transfer Services Technology Commercialisation Innovation Management Case Study Overview Contact us Health Outcomes iOutcomes People Overview Clinical Outcomes Assessments Health Outcome Services FAQs Apply to Use Inspired Works Contact us Incubator News Incubator Services Stages of Development Our Ventures Meet the CEOs Find your CEO match Incubator Team Contact For University Members Consulting Services Support FAQs Register as a consultant Commercialising Your Technology IP patents and licences Starting a company FAQs Isis Startup Incubator Oxford University Hospital NHS Foundation Trust Translational Funding University Hot Desks For Medical Sciences Researchers Contact Us News Events Publications News Events Request further information Technology Showcase 2016 Success Stories Publications Annual Reports Innovation Insights Isis newsletters Comment opinion Other publications reports Home Technologies Available Technologies available for licensing Scintillating solution for national security Share this Scintillating solution for national security Scintillating method A University of Oxford and Imperial College London collaboration has resulted in a lithium 6 fluoride neutron capture design combined with a scintillator material A scintillator is a material which exhibits scintillation the process of luminescence whereby light is emitted following the absorption of radiation Importantly the neutron capture releases charged particles rather than gamma rays which are converted into light by the scintillator material allowing the system good discrimination of gamma ray only sources A light guide then efficiently transfers the light to a semi conductor photon detector over large meters distance Strong global demand Neutron detection is essential when safe guarding national security as plutonium a material used in nuclear weapons is a significant source of fission neutrons Current radiation portal monitoring systems use Helium 3

    Original URL path: http://isis-innovation.com/licence-details/scintillating-solution-national-security/ (2016-05-01)
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  • Controlling ultrafast lasers - Isis Innovation
    Agreement Investment Opportunities Technology investment opportunities Information for Investors Isis Innovation spinouts Oxford Invention Fund University of Oxford Isis Funds Oxford University Consulting Services Academic consulting advice Academic Expertise Showcases Technical Services Technical Services Showcases OUC Clients For University members Contact OUC Innovation Consultancy Technology Transfer Commercialisation Training Technology Transfer Services Technology Commercialisation Innovation Management Case Study Overview Contact us Health Outcomes iOutcomes People Overview Clinical Outcomes Assessments Health Outcome Services FAQs Apply to Use Inspired Works Contact us Incubator News Incubator Services Stages of Development Our Ventures Meet the CEOs Find your CEO match Incubator Team Contact For University Members Consulting Services Support FAQs Register as a consultant Commercialising Your Technology IP patents and licences Starting a company FAQs Isis Startup Incubator Oxford University Hospital NHS Foundation Trust Translational Funding University Hot Desks For Medical Sciences Researchers Contact Us News Events Publications News Events Request further information Technology Showcase 2016 Success Stories Publications Annual Reports Innovation Insights Isis newsletters Comment opinion Other publications reports Home Technologies Available Technologies available for licensing Controlling ultrafast lasers Share this Controlling ultrafast lasers Pulsed laser power In 100 femtoseconds light travels 30 µm around one third the thickness of a human hair Ultrashort laser pulses of this duration carry a small quantity of energy with huge power station equivalent power However to make effective use of these laser pulses requires both a tight focus on the region of interest and the control of aberrations Broad application range Oxford researchers have invented a method for improving the control and correction of wave front and pulse front distortion in ultrafast laser systems offering potential enhancements and user benefits for many applications of this technology improved part quality for users of femtosecond laser machining processes such as direct laser writing For demanding applications requiring submicrometre precision

    Original URL path: http://isis-innovation.com/licence-details/controlling-ultrafast-lasers/ (2016-05-01)
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  • Miniature tuneable dye laser - Isis Innovation
    OUC Clients For University members Contact OUC Innovation Consultancy Technology Transfer Commercialisation Training Technology Transfer Services Technology Commercialisation Innovation Management Case Study Overview Contact us Health Outcomes iOutcomes People Overview Clinical Outcomes Assessments Health Outcome Services FAQs Apply to Use Inspired Works Contact us Incubator News Incubator Services Stages of Development Our Ventures Meet the CEOs Find your CEO match Incubator Team Contact For University Members Consulting Services Support FAQs Register as a consultant Commercialising Your Technology IP patents and licences Starting a company FAQs Isis Startup Incubator Oxford University Hospital NHS Foundation Trust Translational Funding University Hot Desks For Medical Sciences Researchers Contact Us News Events Publications News Events Request further information Technology Showcase 2016 Success Stories Publications Annual Reports Innovation Insights Isis newsletters Comment opinion Other publications reports Home Technologies Available Technologies available for licensing Miniature tuneable dye laser Share this Miniature tuneable dye laser Dye lasers are true tuneable lasers using different organic dyes capable of producing emission from the ultraviolet to near infrared spectrum They can operate in the visible spectrum with tuneable emissions of blue green yellow and red emissions at almost any wavelength Common organic dye lasers are optically pumped and to obtain reliable operation the dye flows through a cell using an argon ion laser as a pump and a prism Tuneable dye lasers are most used for scientific applications like high resolution spectroscopy Oxford Invention The University of Oxford Photonic Nanomaterials Group has developed a dye laser based on optical micro cavities The laser is based around a microscopic resonator with a mode volume of 1 100 µm 3 which provides a spectral range large enough for single mode lasing with no need for additional mode selection or filtering The resonator itself is a tuneable etalon an optical device containing parallel mirrors

    Original URL path: http://isis-innovation.com/licence-details/miniature-tuneable-dye-laser/ (2016-05-01)
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  • Wavelength selector for white light lasers - Isis Innovation
    Innovation spinouts Oxford Invention Fund University of Oxford Isis Funds Oxford University Consulting Services Academic consulting advice Academic Expertise Showcases Technical Services Technical Services Showcases OUC Clients For University members Contact OUC Innovation Consultancy Technology Transfer Commercialisation Training Technology Transfer Services Technology Commercialisation Innovation Management Case Study Overview Contact us Health Outcomes iOutcomes People Overview Clinical Outcomes Assessments Health Outcome Services FAQs Apply to Use Inspired Works Contact us Incubator News Incubator Services Stages of Development Our Ventures Meet the CEOs Find your CEO match Incubator Team Contact For University Members Consulting Services Support FAQs Register as a consultant Commercialising Your Technology IP patents and licences Starting a company FAQs Isis Startup Incubator Oxford University Hospital NHS Foundation Trust Translational Funding University Hot Desks For Medical Sciences Researchers Contact Us News Events Publications News Events Request further information Technology Showcase 2016 Success Stories Publications Annual Reports Innovation Insights Isis newsletters Comment opinion Other publications reports Home Technologies Available Technologies available for licensing Wavelength selector for white light lasers Share this Wavelength selector for white light lasers Oxford researchers have developed a simple inexpensive system that allows the selection of any arbitrary wavelengths including multi band regions from a broad spectrum or supercontinuum white light laser The technology is suited to any application where a laser is used in particular fluorescence microscopy Oxford researchers have developed a simple inexpensive system that allows selection of any wavelengths from a broad spectrum or supercontinuum white light laser source The technology is suited to any application where a laser source is used and would be particularly useful for fluorescence microscopy White light lasers Traditional laser sources only emit at one wavelength which means that separate lasers need to be used for different applications White lasers have been on the market for some time now

    Original URL path: http://isis-innovation.com/licence-details/wavelength-selector-white-light-lasers/ (2016-05-01)
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  • Anti-Human IL7R hybridoma - Isis Innovation
    University Hospital NHS Foundation Trust Translational Funding University Hot Desks For Medical Sciences Researchers Contact Us News Events Publications News Events Request further information Technology Showcase 2016 Success Stories Publications Annual Reports Innovation Insights Isis newsletters Comment opinion Other publications reports About Groups People Overview Board Overview Networks Oxford Innovation Society Isis Angels Network Other Networks Isis Innovation in China Jobs Other Languages Contact us Technologies Available Explore Technologies for License Intellectual Property IP for SMEs Material Reagent Sales Easy to use Materials Evaluation Agreement Investment Opportunities Technology investment opportunities Information for Investors Isis Innovation spinouts Oxford Invention Fund University of Oxford Isis Funds Oxford University Consulting Services Academic consulting advice Academic Expertise Showcases Technical Services Technical Services Showcases OUC Clients For University members Contact OUC Innovation Consultancy Technology Transfer Commercialisation Training Technology Transfer Services Technology Commercialisation Innovation Management Case Study Overview Contact us Health Outcomes iOutcomes People Overview Clinical Outcomes Assessments Health Outcome Services FAQs Apply to Use Inspired Works Contact us Incubator News Incubator Services Stages of Development Our Ventures Meet the CEOs Find your CEO match Incubator Team Contact For University Members Consulting Services Support FAQs Register as a consultant Commercialising Your Technology IP patents and licences Starting a company FAQs Isis Startup Incubator Oxford University Hospital NHS Foundation Trust Translational Funding University Hot Desks For Medical Sciences Researchers Contact Us News Events Publications News Events Request further information Technology Showcase 2016 Success Stories Publications Annual Reports Innovation Insights Isis newsletters Comment opinion Other publications reports Home Technologies Available Material Reagent Sales Anti Human IL7R hybridoma Share this Anti Human IL7R hybridoma Clone Y1L7R304 1 The information presented here on these pages has been provided by the scientists and academics who have created the reagents As far as Isis is able to establish this information is accurate

    Original URL path: http://isis-innovation.com/materials/anti-human-il7r/ (2016-05-01)
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  • Anti-Rat Major Histocompatibility Complex RT1-Aa class I hybridoma - Isis Innovation
    University Hot Desks For Medical Sciences Researchers Contact Us News Events Publications News Events Request further information Technology Showcase 2016 Success Stories Publications Annual Reports Innovation Insights Isis newsletters Comment opinion Other publications reports About Groups People Overview Board Overview Networks Oxford Innovation Society Isis Angels Network Other Networks Isis Innovation in China Jobs Other Languages Contact us Technologies Available Explore Technologies for License Intellectual Property IP for SMEs Material Reagent Sales Easy to use Materials Evaluation Agreement Investment Opportunities Technology investment opportunities Information for Investors Isis Innovation spinouts Oxford Invention Fund University of Oxford Isis Funds Oxford University Consulting Services Academic consulting advice Academic Expertise Showcases Technical Services Technical Services Showcases OUC Clients For University members Contact OUC Innovation Consultancy Technology Transfer Commercialisation Training Technology Transfer Services Technology Commercialisation Innovation Management Case Study Overview Contact us Health Outcomes iOutcomes People Overview Clinical Outcomes Assessments Health Outcome Services FAQs Apply to Use Inspired Works Contact us Incubator News Incubator Services Stages of Development Our Ventures Meet the CEOs Find your CEO match Incubator Team Contact For University Members Consulting Services Support FAQs Register as a consultant Commercialising Your Technology IP patents and licences Starting a company FAQs Isis Startup Incubator Oxford University Hospital NHS Foundation Trust Translational Funding University Hot Desks For Medical Sciences Researchers Contact Us News Events Publications News Events Request further information Technology Showcase 2016 Success Stories Publications Annual Reports Innovation Insights Isis newsletters Comment opinion Other publications reports Home Technologies Available Material Reagent Sales Anti Rat Major Histocompatibility Complex RT1 Aa class I hybridoma Share this Anti Rat Major Histocompatibility Complex RT1 Aa class I hybridoma Clone MN4 91 6 The information presented here on these pages has been provided by the scientists and academics who have created the reagents As far as Isis is able

    Original URL path: http://isis-innovation.com/materials/anti-rat-major-histocompatibility-complex-rt1-aa-class/ (2016-05-01)
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  • Anti-Human CD45RA hybridoma - Isis Innovation
    Hospital NHS Foundation Trust Translational Funding University Hot Desks For Medical Sciences Researchers Contact Us News Events Publications News Events Request further information Technology Showcase 2016 Success Stories Publications Annual Reports Innovation Insights Isis newsletters Comment opinion Other publications reports About Groups People Overview Board Overview Networks Oxford Innovation Society Isis Angels Network Other Networks Isis Innovation in China Jobs Other Languages Contact us Technologies Available Explore Technologies for License Intellectual Property IP for SMEs Material Reagent Sales Easy to use Materials Evaluation Agreement Investment Opportunities Technology investment opportunities Information for Investors Isis Innovation spinouts Oxford Invention Fund University of Oxford Isis Funds Oxford University Consulting Services Academic consulting advice Academic Expertise Showcases Technical Services Technical Services Showcases OUC Clients For University members Contact OUC Innovation Consultancy Technology Transfer Commercialisation Training Technology Transfer Services Technology Commercialisation Innovation Management Case Study Overview Contact us Health Outcomes iOutcomes People Overview Clinical Outcomes Assessments Health Outcome Services FAQs Apply to Use Inspired Works Contact us Incubator News Incubator Services Stages of Development Our Ventures Meet the CEOs Find your CEO match Incubator Team Contact For University Members Consulting Services Support FAQs Register as a consultant Commercialising Your Technology IP patents and licences Starting a company FAQs Isis Startup Incubator Oxford University Hospital NHS Foundation Trust Translational Funding University Hot Desks For Medical Sciences Researchers Contact Us News Events Publications News Events Request further information Technology Showcase 2016 Success Stories Publications Annual Reports Innovation Insights Isis newsletters Comment opinion Other publications reports Home Technologies Available Material Reagent Sales Anti Human CD45RA hybridoma Share this Anti Human CD45RA hybridoma Clone F8 11 13 The information presented here on these pages has been provided by the scientists and academics who have created the reagents As far as Isis is able to establish this information is accurate

    Original URL path: http://isis-innovation.com/materials/human-cd45ra/ (2016-05-01)
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  • Anti-Human CD44 hybridoma - Isis Innovation
    Hospital NHS Foundation Trust Translational Funding University Hot Desks For Medical Sciences Researchers Contact Us News Events Publications News Events Request further information Technology Showcase 2016 Success Stories Publications Annual Reports Innovation Insights Isis newsletters Comment opinion Other publications reports About Groups People Overview Board Overview Networks Oxford Innovation Society Isis Angels Network Other Networks Isis Innovation in China Jobs Other Languages Contact us Technologies Available Explore Technologies for License Intellectual Property IP for SMEs Material Reagent Sales Easy to use Materials Evaluation Agreement Investment Opportunities Technology investment opportunities Information for Investors Isis Innovation spinouts Oxford Invention Fund University of Oxford Isis Funds Oxford University Consulting Services Academic consulting advice Academic Expertise Showcases Technical Services Technical Services Showcases OUC Clients For University members Contact OUC Innovation Consultancy Technology Transfer Commercialisation Training Technology Transfer Services Technology Commercialisation Innovation Management Case Study Overview Contact us Health Outcomes iOutcomes People Overview Clinical Outcomes Assessments Health Outcome Services FAQs Apply to Use Inspired Works Contact us Incubator News Incubator Services Stages of Development Our Ventures Meet the CEOs Find your CEO match Incubator Team Contact For University Members Consulting Services Support FAQs Register as a consultant Commercialising Your Technology IP patents and licences Starting a company FAQs Isis Startup Incubator Oxford University Hospital NHS Foundation Trust Translational Funding University Hot Desks For Medical Sciences Researchers Contact Us News Events Publications News Events Request further information Technology Showcase 2016 Success Stories Publications Annual Reports Innovation Insights Isis newsletters Comment opinion Other publications reports Home Technologies Available Material Reagent Sales Anti Human CD44 hybridoma Share this Anti Human CD44 hybridoma Clone F10 44 2 The information presented here on these pages has been provided by the scientists and academics who have created the reagents As far as Isis is able to establish this information is accurate

    Original URL path: http://isis-innovation.com/materials/anti-human-cd44/ (2016-05-01)
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