Search
Menu
Lumencor Inc. - ZIVA Light Engine 3-24 LB

Ocean Optics Awards Phase I Blue Ocean Grants

Facebook X LinkedIn Email
Ocean Optics, a supplier of optical sensing technology, has named the Phase I winners of its first Blue Ocean Grants and Challenges, an open innovation program seeking novel ideas and technologies with the potential to change the world for the better and for eventual commercialization.

The company said that the quantity of quality applications was so impressive that it issued more grants than planned and created an additional category of developmental grants.

The Blue Ocean grants are divided into two phases. Phase I grants are issued to fund initial evaluation and development of ideas and technologies to the proof-of-concept phase. The company originally planned to award up to 10 Phase I grants of up to $10,000 but expanded that number to 13 grants in five different countries when the grants committee, made up of Ocean Optics CTO Jason M. Eichenholz and independent photonics experts, felt compelled to find funding for the additional three recipients.

Another seven strong submissions were awarded development grants. Recipients will be given or loaned Ocean Optics equipment to facilitate progression of their grant ideas, enabling them to be submitted for either Phase II of this year’s program or Phase I of next year’s funding.

Phase II grants will be issued to nurture a proposed technology through proof of concept in a way that enables the potential of market commercialization. Up to two Phase II grants of up to $100,000 each will be awarded in early 2012.

“We were very impressed with the response to the Blue Ocean Grant Program. We had over 100 submissions from multiple countries, with a diverse range of photonics technologies and applications,” said Eichenholz.

Recipients were chosen based on the technology’s ability to change the world for the better, and for out-of-the-box thinking, technical merit and potential commercial viability.

Phase I grant winners and their technology are:

Jarkko Antila, VTT Technical Research Centre of Finland, MEMS-based mid-IR spectrometer

Cognex Corp. - Smart Sensor 3-24 GIF MR

Christopher Fraker, Diabetes Research Institute, Tailored oxygen levels for cell culturing

Matthew Gunn, Aberystwyth University, Economical hyperspectral imager

Guifang Li, CREOL/The School of Optics at the University of Central Florida, The College of Optics & Photonics, Novel tunable mid-IR laser sources

Zhiwen Liu, Pennsylvania State University, G-Fresnel optical spectrometer miniaturization

Hans-Peter Loock, Queen’s University, Fiber optic mercury probe

Robert Pal, Durham University/FScan Ltd., Handheld rapid prostate cancer screening instrument

Bill Parker, Creative Microsystems, Nanoliter optical sensing

Nadia Pervez, Chromation Partners, Novel photonic crystal spectrometer

Scott Rowe, Ocular Prognostics LLC, Macular pigment measurement

Maurizio Tormen, CSEM SA, MEMS wave meter Ian White, University of Maryland, Inkjet-printed SERS dipsticks

Liang Zhang, University of Washington, Detection system for early childhood caries

Development grant winners are:

Kristen Maitland, Texas A&M University, Spectrally encoded depth scans for early cancer detection

Dominic Murphy, Fusion Photonics Ltd., Fiber Fourier transform spectrometer

Dustin Ritter, Engineering World Health organization — Texas A&M chapter, Medical oxygen concentrator measurement system

Frank Rutten, Keele University, Rapid on-site detection of asbestos

Eric Smith, FMIP, Real-time spectroscopy for the produce industry

Kate Sugden, Aston University, Fiber Bragg grating sensing using new Ocean Optics spectrometers

Bo Yang, USF College of Marine Science, Low-cost optical pH sensors

For more information, visit: www.blueoceangrants.com  


Published: October 2011
Glossary
hyperspectral imaging
Hyperspectral imaging is an advanced imaging technique that captures and processes information from across the electromagnetic spectrum. Unlike traditional imaging systems that record only a few spectral bands (such as red, green, and blue in visible light), hyperspectral imaging collects data in numerous contiguous bands, covering a wide range of wavelengths. This extended spectral coverage enables detailed analysis and characterization of materials based on their spectral signatures. Key...
nano
An SI prefix meaning one billionth (10-9). Nano can also be used to indicate the study of atoms, molecules and other structures and particles on the nanometer scale. Nano-optics (also referred to as nanophotonics), for example, is the study of how light and light-matter interactions behave on the nanometer scale. See nanophotonics.
AmericasAsia-PacificBill ParkerBiophotonicsBlue Ocean Grants and ChallengesBo YangBusinessChristopher FrakerDetection system early childhood cariesDominic MurphyDustin RitterEconomical hyperspectral imagerenergyEric SmithEuropeFiber Bragg grating sensing Ocean Optics spectrometersfiber Fourier transform spectrometerFiber optic mercury probefiber opticsFloridaFrank RuttenG-Fresnel optical spectrometer miniaturizationGuifang LiHandheld rapid prostate cancer screening instrumentHans-Peter Loockhyperspectral imagingIan WhiteImagingInkjet-printed SERS dipsticksJarkko AntilaJason M. EichenholzKate SugdenKristen MaitlandLiang ZhangLow cost optical pH sensorsMacular pigment measurementMatthew GunnMedical oxygen concentrator measurement systemMEMS wave meterMEMS-based mid-IR spectrometerNadia PerveznanoNanoliter optical sensingNovel tunable mid-IR laser sourcesOcean Opticsoptical sensingOpticsoptics awardsphotonic crystal spectrometerphotonics technology awardsRapid on-site detection of asbestosReal-time spectroscopy produce industryRobert PalSensors & DetectorsSpectrally encoded depth scans early cancer detectionspectroscopyTailored oxygen levels cell culturingtechnology innovation awardsZhiwen LiuLasers

We use cookies to improve user experience and analyze our website traffic as stated in our Privacy Policy. By using this website, you agree to the use of cookies unless you have disabled them.