Doesn't look like there will be a slow down in the
Post# of 22456
Posted On: 12/01/2014 11:30:24 PM
Doesn't look like there will be a slow down in the innovative uses for Quantum Dots. This is from a paragraph of patent application 20140349941 submitted by Cornell University. http://www.faqs.org/patents/app/20140349941?emailalert=1
Optofluidics refers to manipulation of light using fluids, or vice-versa, on the micro to nano meter scale. By taking advantage of the microfluidic manipulation, the optical properties of the fluids can be precisely and flexibly controlled to realize reconfigurable optical components which are otherwise difficult or impossible to implement with solid-state technology. In addition, the unique behavior of fluids on micro/nano scale has given rise to the possibility to manipulate the fluid using light. Applications of optofluidic devices based on cyt c doped with aromatic-cationic peptide(s), cardiolipin, or peptide(s) and cardiolipin include, but are not limited to: adaptive optical elements; detection using microresonators; fluidic waveguides; fluorescent microfluidic light sources; integrating nanophotonics and microfluidics; micro-spectroscopy; microfluidic quantum dot bar-codes ; microfluidics for nonlinear optics applications; optofluidic microscopy; optofluidic quantum cascade lasers for reconfigurable photonics and on-chip molecular detectors; optical memories using nanoparticle cocktails; and test tube microcavity lasers for integrated opto-fluidic applications.
Here is the list of new patent applications for this week:
20140346443 PLASMONIC GRAPHENE DEVICES Mark Alan Davis plurality of elements is a corresponding quantum dot (e.g., 104-1, 104-2,
20140346546 GALLIUM-NITRIDE-ON-HANDLE SUBSTRATE MATERIALS AND DEVICES AND METHOD OF MANUFACTURE MARK P. D'EVELYN, ARPAN CHAKRABORTY, WILLIAM D. HOUCK photodetector, a quantum dot infrared photodetector, a solar cell, and a
20140346547 Light Emitting Device Package Seung Ryong Park quantum dot may be in the range of 1 nm to 10 nm.
20140347648 APPARATUS, SYSTEM AND METHOD OF COMMUNICATING POSITIONING INFORMATION Richard D. Roberts cells, quantum dot photoconductors, charge-coupled devices (CCD
20140347850 SERIALLY-CONNECTED LIGHT EMITTING DIODES, METHODS OF FORMING SAME, AND LUMINAIRES CONTAINING SAME Fredric S. Maxik, David E. Bartine, Robert R. Soler, Theordore Scone, Mark Andrew Oostdyk quantum dot materials, and dyes. All other non-recited materials capable
20140347854 LAMP UNIT AND VEHICLE LAMP APPARATUS INCLUDING THE SAME Jung Ho Lee, Jun Suk Yang, Jae Myeong Noh well structure, a quantum-wire structure, a quantum dot structure or the
20140348194 VCSEL AND MANUFACTURING METHOD OF THE SAME Hyundai PARK, Gyungock KIM structure and a quantum dot structure.
20140348746 4,4-DISUBSTITUTED CYCLOHEXYL BRIDGED HEPTAMETHINE CYANINE DYES AND USES THEREOF Narasimhachari Narayanan quantum dot-based imaging probe, a nanoparticle-based imaging probe, a
20140348749 IDENTIFICATION AND TREATMENT OF TUMORS SENSITIVE TO GLUCOSE LIMITATION Kivanc Birsoy, Richard Possemato, David M. Sabatini detection), quantum dot (semiconductor nanoparticles
20140348755 TARGETED NANOPARTICLES JOINED TO REPORTER MOLECULES THROUGH MULTIPLE MECHANISMS Kevin C. Weng Quantum Dot-Conjugated Immunoliposomes In Vitro and In Vivo. Nano Letters
20140348902 TCL1 PEPTIDES FOR IMMUNOTHERAPY Sattva S. Neelapu, Jinsheng Weng semiconductor quantum dot, both of which can be used in optical imaging.
20140349213 COMPOSITE MEMBRANES, METHODS OF MAKING SAME, AND APPLICATIONS OF SAME Peter N. Pintauro, Andrew Park, Jason Ballengee nanocomposite, quantum dot, nanofilm, nanoshell, nanofiber, nanoring,
20140349287 Method and Apparatus for a Nanopipette Biosensor Shoupeng Liu, Satyajyoti Senapati, Yunshan Wang, Yu Yan, Hsueh-Chia Chang 13. The method of claim 1, wherein the reporter is a quantum dot.
20140349288 Methods for Making Nucleotide Probes for Sequencing and Synthesis George M. CHURCH, Kun ZHANG, Joseph CHOU fluorescent dye or quantum dot selected from a group consisting of from 2
20140349305 SYSTEMS AND METHODS FOR ONE OR MORE OF DETECTING, ISOLATING, IDENTIFYING, TRANSPORTING AND QUANTIFYING A TARGET ANALYTE IN A FLUID Jessica O. Winter, Kalpesh D. Mahajan, Gang Ruan nanoparticle comprises a quantum dot.
20140349430 DEPOSITION APPARATUS, METHOD THEREOF AND METHOD FOR FORMING QUANTUM-DOT LAYER USING THE SAME DONG-CHAN KIM 15. A method for forming a quantum dot layer, the method comprising
20140349860 IDENTIFYING PEPTIDES AT THE SINGLE MOLECULE LEVEL Edward Marcotte, Jagannath Swaminathan, Andrew Wllington, Eric Anslyn dye), which can be a small molecule, protein or quantum dot (see FIG.
20140349873 Methods of Producing Competitive Aptamer FRET Reagents and Assays John Bruno, Joseph Chanpong on a column, membrane, plastic or glass bead, magnetic bead, quantum dot,
20140349917 TARGETED ANTIMICROBIAL MOIETIES RANDAL H. ECKERT, CHRIS KAPLAN, JIAN HE, DANIEL K. YARBROUGH, MAXWELL ANDERSON, JEE-HYUN SIM colorimetric label, and a quantum dot.
20140349941 AROMATIC-CATIONIC PEPTIDES AND USES OF SAME D. Travis Wilson, Hazel Szeto, Alex Birk micro-spectroscopy; microfluidic quantum dot bar-codes; microfluidics for
20140350183 CHROMOPHORIC POLYMER DOTS WITH NARROW-BAND EMISSION Daniel T. Chiu, Changfeng Wu, Yu Rong, Yong Zhang, Yi-Che Wu, Yang-Hsiang Chan, Xuanjun Zhang, Jiangbo Yu, Wei Sun a quantum dot.
20140350227 MULTI-FLUORESCENT SUBSTANCE INCLUDING NOVEL COUMARIN DERIVATIVE, AND LED LIGHT SOURCE-BASED MICROFLUORESCENT QUANTITATIVE BIOSENSOR FOR DIAGNOSIS USING SAME Hyun Park, Hak Sung Kim, Hyun Ok Song, Chom Kyu Chong, Sung Yeon Kim quantum dot (QD
20140350370 GLUCOSE SENSING ASSAY Brian M. Cummins, Gerard L. Cote fluorophore, quantum dot, nanodiamond, a Raman reporter, or a
Disable this alert: Unsubscribe "quantum dot" keyword
It's only the beginning!
Bill
Optofluidics refers to manipulation of light using fluids, or vice-versa, on the micro to nano meter scale. By taking advantage of the microfluidic manipulation, the optical properties of the fluids can be precisely and flexibly controlled to realize reconfigurable optical components which are otherwise difficult or impossible to implement with solid-state technology. In addition, the unique behavior of fluids on micro/nano scale has given rise to the possibility to manipulate the fluid using light. Applications of optofluidic devices based on cyt c doped with aromatic-cationic peptide(s), cardiolipin, or peptide(s) and cardiolipin include, but are not limited to: adaptive optical elements; detection using microresonators; fluidic waveguides; fluorescent microfluidic light sources; integrating nanophotonics and microfluidics; micro-spectroscopy; microfluidic quantum dot bar-codes ; microfluidics for nonlinear optics applications; optofluidic microscopy; optofluidic quantum cascade lasers for reconfigurable photonics and on-chip molecular detectors; optical memories using nanoparticle cocktails; and test tube microcavity lasers for integrated opto-fluidic applications.
Here is the list of new patent applications for this week:
20140346443 PLASMONIC GRAPHENE DEVICES Mark Alan Davis plurality of elements is a corresponding quantum dot (e.g., 104-1, 104-2,
20140346546 GALLIUM-NITRIDE-ON-HANDLE SUBSTRATE MATERIALS AND DEVICES AND METHOD OF MANUFACTURE MARK P. D'EVELYN, ARPAN CHAKRABORTY, WILLIAM D. HOUCK photodetector, a quantum dot infrared photodetector, a solar cell, and a
20140346547 Light Emitting Device Package Seung Ryong Park quantum dot may be in the range of 1 nm to 10 nm.
20140347648 APPARATUS, SYSTEM AND METHOD OF COMMUNICATING POSITIONING INFORMATION Richard D. Roberts cells, quantum dot photoconductors, charge-coupled devices (CCD
20140347850 SERIALLY-CONNECTED LIGHT EMITTING DIODES, METHODS OF FORMING SAME, AND LUMINAIRES CONTAINING SAME Fredric S. Maxik, David E. Bartine, Robert R. Soler, Theordore Scone, Mark Andrew Oostdyk quantum dot materials, and dyes. All other non-recited materials capable
20140347854 LAMP UNIT AND VEHICLE LAMP APPARATUS INCLUDING THE SAME Jung Ho Lee, Jun Suk Yang, Jae Myeong Noh well structure, a quantum-wire structure, a quantum dot structure or the
20140348194 VCSEL AND MANUFACTURING METHOD OF THE SAME Hyundai PARK, Gyungock KIM structure and a quantum dot structure.
20140348746 4,4-DISUBSTITUTED CYCLOHEXYL BRIDGED HEPTAMETHINE CYANINE DYES AND USES THEREOF Narasimhachari Narayanan quantum dot-based imaging probe, a nanoparticle-based imaging probe, a
20140348749 IDENTIFICATION AND TREATMENT OF TUMORS SENSITIVE TO GLUCOSE LIMITATION Kivanc Birsoy, Richard Possemato, David M. Sabatini detection), quantum dot (semiconductor nanoparticles
20140348755 TARGETED NANOPARTICLES JOINED TO REPORTER MOLECULES THROUGH MULTIPLE MECHANISMS Kevin C. Weng Quantum Dot-Conjugated Immunoliposomes In Vitro and In Vivo. Nano Letters
20140348902 TCL1 PEPTIDES FOR IMMUNOTHERAPY Sattva S. Neelapu, Jinsheng Weng semiconductor quantum dot, both of which can be used in optical imaging.
20140349213 COMPOSITE MEMBRANES, METHODS OF MAKING SAME, AND APPLICATIONS OF SAME Peter N. Pintauro, Andrew Park, Jason Ballengee nanocomposite, quantum dot, nanofilm, nanoshell, nanofiber, nanoring,
20140349287 Method and Apparatus for a Nanopipette Biosensor Shoupeng Liu, Satyajyoti Senapati, Yunshan Wang, Yu Yan, Hsueh-Chia Chang 13. The method of claim 1, wherein the reporter is a quantum dot.
20140349288 Methods for Making Nucleotide Probes for Sequencing and Synthesis George M. CHURCH, Kun ZHANG, Joseph CHOU fluorescent dye or quantum dot selected from a group consisting of from 2
20140349305 SYSTEMS AND METHODS FOR ONE OR MORE OF DETECTING, ISOLATING, IDENTIFYING, TRANSPORTING AND QUANTIFYING A TARGET ANALYTE IN A FLUID Jessica O. Winter, Kalpesh D. Mahajan, Gang Ruan nanoparticle comprises a quantum dot.
20140349430 DEPOSITION APPARATUS, METHOD THEREOF AND METHOD FOR FORMING QUANTUM-DOT LAYER USING THE SAME DONG-CHAN KIM 15. A method for forming a quantum dot layer, the method comprising
20140349860 IDENTIFYING PEPTIDES AT THE SINGLE MOLECULE LEVEL Edward Marcotte, Jagannath Swaminathan, Andrew Wllington, Eric Anslyn dye), which can be a small molecule, protein or quantum dot (see FIG.
20140349873 Methods of Producing Competitive Aptamer FRET Reagents and Assays John Bruno, Joseph Chanpong on a column, membrane, plastic or glass bead, magnetic bead, quantum dot,
20140349917 TARGETED ANTIMICROBIAL MOIETIES RANDAL H. ECKERT, CHRIS KAPLAN, JIAN HE, DANIEL K. YARBROUGH, MAXWELL ANDERSON, JEE-HYUN SIM colorimetric label, and a quantum dot.
20140349941 AROMATIC-CATIONIC PEPTIDES AND USES OF SAME D. Travis Wilson, Hazel Szeto, Alex Birk micro-spectroscopy; microfluidic quantum dot bar-codes; microfluidics for
20140350183 CHROMOPHORIC POLYMER DOTS WITH NARROW-BAND EMISSION Daniel T. Chiu, Changfeng Wu, Yu Rong, Yong Zhang, Yi-Che Wu, Yang-Hsiang Chan, Xuanjun Zhang, Jiangbo Yu, Wei Sun a quantum dot.
20140350227 MULTI-FLUORESCENT SUBSTANCE INCLUDING NOVEL COUMARIN DERIVATIVE, AND LED LIGHT SOURCE-BASED MICROFLUORESCENT QUANTITATIVE BIOSENSOR FOR DIAGNOSIS USING SAME Hyun Park, Hak Sung Kim, Hyun Ok Song, Chom Kyu Chong, Sung Yeon Kim quantum dot (QD
20140350370 GLUCOSE SENSING ASSAY Brian M. Cummins, Gerard L. Cote fluorophore, quantum dot, nanodiamond, a Raman reporter, or a
Disable this alert: Unsubscribe "quantum dot" keyword
It's only the beginning!
Bill
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