Exhibiting Three-dimensional Carrier Confinement (e.g., Quantum Dots, Etc.) Patents (Class 977/774)
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Publication number: 20130335671Abstract: In embodiments of active reflective surfaces, an imaging structure includes a circuit control layer that controls pixel activation to emit light. A reflective layer of the imaging structure reflects input light from an illumination source. An active color conversion material that is formed on the reflective layer converts the input light to the emitted light. The active color conversion material can be implemented as a phosphorus material or quantum dot material that converts the input light to the emitted light, and in embodiments, the active color conversion material is laminated directly on the reflective layer.Type: ApplicationFiled: June 18, 2012Publication date: December 19, 2013Inventors: Rod G. Fleck, Andreas G. Nowatzyk, David D. Bohn
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Publication number: 20130334441Abstract: Embodiments disclosed herein relate to a filter (100). In one embodiment, the filter includes a pattern (120). The pattern may reflect or fluoresce non-visible light.Type: ApplicationFiled: January 28, 2011Publication date: December 19, 2013Inventors: Daniel I. Croft, Bany T. Phillips, Brad Benson, Cary G. Addington, Angus Wu, Stephan R. Clark, Guy Adams
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Publication number: 20130337642Abstract: Methods for forming or patterning nanostructure arrays are provided. The methods involve formation of arrays on coatings comprising nanostructure association groups, formation of arrays in spin-on-dielectrics, solvent annealing after nanostructure deposition, patterning using resist, and/or use of devices that facilitate array formation. Related devices for forming nanostructure arrays are also provided, as are devices including nanostructure arrays (e.g., memory devices).Type: ApplicationFiled: August 1, 2013Publication date: December 19, 2013Applicant: SanDisk 3D LLCInventors: Jian Chen, Karen Chu Cruden, Xiangfeng Duan, Chao Liu, J. Wallace Parce
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Publication number: 20130335799Abstract: A display device includes a light source unit that emits a first light with a first wavelength, an optical filter that converts the first light to a second light, and an optical shutter that transmits or reflects the first light or the second light.Type: ApplicationFiled: December 31, 2012Publication date: December 19, 2013Applicant: Samsung Display Co., Ltd.Inventors: Seon-Tae YOON, Jong Hyuk Kang, Jae Byung Park, Mun-Ki Sim, Dae Hyun Kim, Minki Nam, Haeil Park, Dong-Hoon Lee, Hyun Min Cho
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Patent number: 8609420Abstract: Provided are methods for introducing a molecule of interest into a plant cell having a cell wall by using a QD-peptide conjugate having a quantum dot (QD) with one or more cell penetrating peptides (CPPs). Methods are provided for genetically or otherwise modifying plants and for treating or preventing disease in plant cells comprising a cell wall.Type: GrantFiled: March 22, 2012Date of Patent: December 17, 2013Assignee: Dow AgroSciences, LLC.Inventors: Jayakumar P. Samuel, Narasimha C. Samboju, Kerrm Y. Yau, Gaofeng Lin, Steven R. Webb, Frank Burroughs
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Patent number: 8609245Abstract: A nanocrystal includes a core including a Group III-V semiconductor and a transition metal alloyed with the Group III-V semiconductor, wherein the transition metal is present at a higher molar concentration in an outermost surface layer of the core than in a central portion of the core.Type: GrantFiled: May 12, 2009Date of Patent: December 17, 2013Assignee: Samsung Electronics Co., Ltd.Inventors: Eun Joo Jang, Shin Ae Jun, Hyo Sook Jang
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Patent number: 8610232Abstract: An hyperspectral imaging device comprising semiconductor nanocrystals is provided.Type: GrantFiled: September 22, 2008Date of Patent: December 17, 2013Assignee: QD Vision, Inc.Inventors: Seth Coe-Sullivan, Gregory V. Moeller
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Publication number: 20130330279Abstract: The present disclosure provides compositions and methods of treating Breast Cancer. Disclosed is a nanoparticle paired to at least one of W genetic materials that suppress key regulators of fat synthesis (e.g. Rev-erb) to cause a predefined target cell types apoptosis or X predefined targeting moieties that cause predefined target cell types apoptosis and correspond to Y predefined target parameters associated with Z predefined target cell types in connection with treatment of at least one of the following breast cancer, glioblastoma, head and neck cancer, pancreatic cancer, lung cancer, cancer of the nervous system, gastrointestinal cancer, prostate cancer, ovarian cancer, kidney cancer, retina, cancer, skin cancer, liver cancer, genital.Type: ApplicationFiled: December 22, 2012Publication date: December 12, 2013Applicant: NNANOAXIS, LLCInventors: Krishnan Chakravarthy, Robert Spengler, Tracey Ignatowski, Siddhartha Kamisetti
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Publication number: 20130326941Abstract: Quantum dot (QD) LEDs useful for plant, algael and photosynthetic bacterial growth applications. The QD LEDs utilizes a solid state LED (typically emitting blue or UV light) as the primary light source and one or more QD elements as a secondary light source that down-converts the primary light. The emission profile of the QD LED can be tuned to correspond to the absorbance spectrum of one or more photosynthetic pigments of the organism.Type: ApplicationFiled: April 5, 2013Publication date: December 12, 2013Applicant: Nanoco Technologies Ltd.Inventor: Nanoco Technologies Ltd.
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Preparation of stable, bright luminescent nanoparticles having compositionally engineered properties
Patent number: 8603362Abstract: A method is provided for preparing luminescent semiconductor nanoparticles composed of a first component X, a second component A, and a third component B, wherein X, A, and B are different, by combining B with X and A in an amount such that the molar ratio B:(A+B) is in the range of approximately 0.001 to 0.20 and the molar ratio X:(A+B) is in the range of approximately 0.5:1.0 to 2:1. The characteristics of these nanoparticles can be substantially similar to those of nanoparticles containing only X and B while maintaining many useful properties characteristic of nanoparticles containing only X and A; and can additionally exhibit emergent properties such as a peak emission energy less than that characteristic of a particle composed of XA or XB alone. This method is particularly applicable to the preparation of stable, bright nanoparticles that emit in the red to infrared regions of the electromagnetic spectrum.Type: GrantFiled: September 10, 2012Date of Patent: December 10, 2013Assignee: Life Technologies CorporationInventors: Marc Schrier, Donald Zehnder, Joseph Treadway, Joseph Bartel -
Patent number: 8603400Abstract: A series of binary and ternary Pt-alloys, that promote the important reactions for catalysis at an alloy surface; oxygen reduction, hydrogen oxidation, and hydrogen and oxygen evolution. The first two of these reactions are essential when applying the alloy for use in a PEMFC.Type: GrantFiled: May 20, 2010Date of Patent: December 10, 2013Assignee: California Institute of TechnologyInventors: Charles C. Hays, Sri R. Narayan
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Publication number: 20130323777Abstract: A ligand design allows compact nanoparticle materials, such as quantum dots (QDs), with excellent colloidal stability over a wide range of pH and under high salt concentrations. Self-assembled biomolecular conjugates with QDs can be obtained which are stable in biological environments. Energy transfer with these ligands is maximized by minimizing distances between QDs/nanoparticles and donors/acceptors directly attached to the ligands or assembled on their surfaces.Type: ApplicationFiled: July 16, 2013Publication date: December 5, 2013Applicant: Naval Research LaboratoryInventors: Igor L. Medintz, Kimihiro Susumu, Michael H. Stewart
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SEMICONDUCTOR STRUCTURE HAVING NANOCRYSTALLINE CORE AND NANOCRYSTALLINE SHELL WITH INSULATOR COATING
Publication number: 20130320298Abstract: A semiconductor structure comprises a nanocrystalline core of a first semiconductor material, a nanocrystalline shell of a second, different, semiconductor material at least partially surrounding the nanocrystalline core, and an insulator layer encapsulating the nanocrystalline shell and core, wherein an outer surface of the insulator layer is ligand-functionalized.Type: ApplicationFiled: May 28, 2013Publication date: December 5, 2013Inventors: Juanita N. KURTIN, Matthew J. CARILLO, Steven M. HUGHES, Brian THEOBALD, Colin C. REESE, Oun-Ho PARK, Georgeta MASSON -
Publication number: 20130321902Abstract: Provided are a meta-material and a method of fabricating the same. the metal-material may include a substrate, a metal layer on the substrate, and an active gain medium layer on the metal layer. The active gain medium layer and the metal layer may be configured to define hole patterns that may be periodically arranged to have a space smaller than a wavelength of an ultraviolet light, such that the active gain medium layer and the metal layer exhibit a negative refractive index in a wavelength region of the ultraviolet light.Type: ApplicationFiled: March 14, 2013Publication date: December 5, 2013Applicant: ELECTRONICS AND TELECOMMUNICATIONS RESEARCH INSTITUTEInventor: ELECTRONICS AND TELECOMMUNICATIONS RESEARCH INSTITUTE
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Patent number: 8597730Abstract: A process for the production of surface functionalised nanoparticles, such as the production of semiconductor quantum dot nanoparticles incorporating surface-bound functional groups that increase the ease with which the dots can be employed in applications, such as incorporation into solvents, inks, polymers, glasses, metals, electronic materials and devices, bio-molecules and cells. Embodiments of the method include reacting first and second nanoparticle precursor species in the presence of a nanoparticle surface binding ligand X—Y—Z where X is a nanoparticle surface binding group, Y is a linker group, and Z is a functional group, in which Y comprises a polyethyleneglycol group and/or Z comprises an aliphatic group incorporating a terminal unsaturated group, the reaction being effected under conditions permitting binding of said surface binding ligand to the growing nanoparticles to produce said surface functionalised nanoparticles.Type: GrantFiled: August 7, 2009Date of Patent: December 3, 2013Assignee: Nanoco Technologies Ltd.Inventors: Nigel Pickett, Mark C. McCairn, Steven M. Daniels, Imrana Mushtaq, Paul Glarvey
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Publication number: 20130313595Abstract: Compositions having luminescent properties are described. The compositions can include a luminescent material, such as quantum dots and a reflective material, such as barium sulfate, both suspended in a matrix material. The presence of the reflecting material increases the amount of light captured from the composition. The compositions described herein can be used in back-lighting for LCDs and can also be used in other applications, such as color conditioning of ambient lighting.Type: ApplicationFiled: May 22, 2013Publication date: November 28, 2013Inventors: Imad Naasani, Hao Pang
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Publication number: 20130314642Abstract: A non-black dead front display assembly is provided which includes a first plastic layer which in the absence of backlighting is opaque to a viewer, a transparent structural plastic layer, a mask layer with light transparent windows defining at least one graphic, and a support component for supporting a light source for backlighting.Type: ApplicationFiled: March 27, 2013Publication date: November 28, 2013Applicant: Conopco, Inc., d/b/a UNILEVERInventors: Kenneth Dykes TIMMERMAN, Gregory Kent THOMPSON
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Publication number: 20130299745Abstract: A method for the photo-mediated phase transfer of inorganic nanocrystals, such as luminescent quantum dots, QDs, is provided. Irradiation, specifically UV excitation (?ex<400 nm), promotes the in-situ ligand exchange of hydrophobic quantum dots with hydrophilic ligands and their facile transfer to polar solvents and buffer media. The technique enables transfer of quantum dots and other nanocrystal materials from hydrophobic to polar and hydrophilic solutions.Type: ApplicationFiled: May 7, 2013Publication date: November 14, 2013Applicant: The Florida State University Research Foundation Inc.Inventors: Hedi Mattoussi, Igor Alabugin, Goutam Palui, Tommaso Avellini
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Patent number: 8581235Abstract: Provided are a resonance tunneling device and a method of manufacturing the resonance tunneling device. The resonance tunneling device includes a substrate, a plurality of electrodes disposed on the substrate, and a nanoparticle layer disposed between the electrodes, and doped with an impurity. The nanoparticle layer uses the impurity to exhibit resonance tunneling where a current peak occurs at a target bias voltage applied between the electrodes.Type: GrantFiled: June 12, 2013Date of Patent: November 12, 2013Assignee: Electronics and Telecommunications Research InstituteInventors: Jonghyurk Park, Seung Youl Kang
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Publication number: 20130291941Abstract: A solid-state hole transport composite material (ssHTM) is provided made from a p-type organic semiconductor and a dopant material serving as a source for either sodium (Na+) or potassium (K+) ions. The p-type organic semiconductor may be molecular (a collection of discrete molecules, that are either chemically identical or different), oligomeric, polymeric materials, or combinations thereof. In one aspect, the p-type organic semiconductor is 2,2?,7,7?-tetrakis(N,N-di-p-methoxyphenylamine)-9,9?-spirobifluorene (Spiro-OMeTAD). The dopant material is an inorganic or organic material salt. A solid-state dye-sensitized solar cell (ssDSC) with the above-described ssHTM, is also provided.Type: ApplicationFiled: May 1, 2012Publication date: November 7, 2013Inventors: Sean Andrew Vail, Wei Pan, Gary D. Foley, Jong-Jan Lee
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Publication number: 20130293123Abstract: This invention is a photon-interactive Gaussian surface lens method means that converts incident photons from a single or a plurality of wide band gap semiconductor class light emitting diode dies, into a secondary emission of photons emanating from a composite photon transparent colloidal stationary suspension of quantum dots, high efficiency phosphors, a combination of quantum dots and high efficiency phosphors and nano-particles of metal, silicon or similar semiconductors from the IIIB and IVB Group of the Periodic Table and any nano-material and/or micro/nano spheres that responds to Rayleigh Scattering and/or Mie Scattering; and a plurality of quantum dots in communication with said nano-particles in said suspension. The patent teaches that utilizing this method means results in improved narrow pass-band of red, green, and blue photon efficiency over phosphor based conversion.Type: ApplicationFiled: May 7, 2012Publication date: November 7, 2013Inventors: David Deak, SR., David Deak, JR.
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Publication number: 20130295586Abstract: Semiconductor nanocrystals prepared using a mixture of organic ligands (e.g., oxoacids), as well as compositions, kits, and methods of using such semiconductor nanocrystals are disclosed.Type: ApplicationFiled: December 23, 2011Publication date: November 7, 2013Applicant: LIFE TECHNOLOGIES CORPORATIONInventors: Joseph August Bartel, Yongfen Chen, Noah Lermer, Timothy Carter, Scott Sweeney, Chad Teters, Wenxi Huang
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Publication number: 20130294048Abstract: Provided are a long-life light emitting device less likely to degrade luminescence properties over time, a method for manufacturing the same, and a cell for a light emitting device used for the same. A light emitting device 1 includes a cell 10 and a luminescent material encapsulated in the cell 10. The cell 10 includes a pair of glass sheets 12 and 13 and a glass-made fused part 14a. The pair of glass sheets 12 and 13 are disposed to face each other with a space therebetween. The fused part 14a is disposed between respective peripheral portions of the pair of glass sheets 12 and 13. The fused part 14a is fused to each of the pair of glass sheets 12 and 13.Type: ApplicationFiled: October 18, 2011Publication date: November 7, 2013Applicant: NIPPON ELECTRIC GLASS CO., LTD.Inventors: Hideki Asano, Masanori Wada
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Patent number: 8575282Abstract: A modified compound that has at least one further functional group, in particular a bio- or macromolecule, comprising at least one x-fold (x?1) chemoselectively incorporated phosphoramidate group of general formula (I), NPO(OR1)(OR1?), and/or at least one x-fold (x?1) chemoselectively incorporated phosphonamide group of general formula (Ia), NPO(R1)(OR1?). R1 and R1? is selected from the group containing glycerol, polyglycerol, PEG polymers of the general empirical formula C2nH4n+2On+1 with n?1, Cn-alkyl chains with n?1; functionalized Cn-alkyl chains with n?1, aryls, heteroaryl, silyl, lipids, fluorophores, saccharides, peptides, crown ethers, or a linker, which links the aforementioned groups. R1 and R1? can be identical to or different from one another.Type: GrantFiled: March 9, 2010Date of Patent: November 5, 2013Assignee: Freie Universitaet BerlinInventors: Christian Hackenberger, Giuseppe Del Signore, Remigiusz Serwa, Ina Wilkening, Robert Vallee
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Publication number: 20130284979Abstract: The invention relates to a method for the synthesis of glutathione-capped cadmium-telluride (GSH-CdTe) quantum dots in an aqueous medium, including the steps of: a) preparing a precursor solution of cadmium in a citrate buffer; b) adding glutathione (GSH) to the preceding mixture via strong agitation; c) adding a telluride (potassium or sodium telluride) oxyanion as a telluride donor to the preceding mixture; d) allowing the preceding mixture to react; and e) stopping the reaction by incubation at low temperature.Type: ApplicationFiled: June 27, 2013Publication date: October 31, 2013Inventors: Jose Manuel PEREZ DONOSO, Juan Pablo MONRAS CHARLES, Igor Orlando OSORIO-ROMAN, Claudio Chrisitan VASQUEZ GUZMAN
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Publication number: 20130284249Abstract: Composite materials useful for devices such as photoelectrochemical solar cells include a substrate, a metal oxide film on the substrate, nanocrystalline quantum dots (NQDs) of lead sulfide, lead selenide, and lead telluride, and linkers that attach the NQDs to the metal oxide film. Suitable linkers preserve the 1s absorption peak of the NQDs. A suitable linker has a general structure A-B-C where A is a chemical group adapted for binding to a MOx and C is a chemical group adapted for binding to a NQD and B is a divalent, rigid, or semi-rigid organic spacer moiety. Other linkers that preserve the 1s absorption peak may also be used.Type: ApplicationFiled: October 14, 2011Publication date: October 31, 2013Applicant: Los Alamos National Security, LLCInventors: Nobuhiro Fuke, Alexey Y. Koposov, Milan Sykora, Laura Hoch
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Patent number: 8563968Abstract: The present invention provides an EL device that contains a quantum-dots-containing layer in which quantum dots hardly coagulate even under high-temperature conditions, e.g., at a temperature of 90° C. or more, that has a good performance even if heat treatment was carried at a high temperature in its production process, that can retain its emission characteristics for a prolonged period of time, and that has high durability. An electroluminescent device comprises a pair of electrodes, and an electroluminescent layer containing at least a luminescent layer, situated between the electrodes. The luminescent layer contains quantum dots whose surfaces are protected by one or more protective materials. At least one of the protective materials has a glass transition temperature and a melting point of 90° C. or more.Type: GrantFiled: September 26, 2008Date of Patent: October 22, 2013Assignee: Dai Nippon Printing Co., Ltd.Inventors: Tomonori Akai, Yasuhiro Iizumi
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Publication number: 20130273247Abstract: A method for preparing semiconductor nanocrystals is disclosed. The method comprises adding a precursor mixture comprising one or more cation precursors, one or more anion precursors, and one or more amines to a ligand mixture including one or more acids, one or more phenol compounds, and a solvent to form a reaction mixture, wherein the molar ratio of (the one or more phenol compounds plus the one or more acids plus the one or more amine compounds) to the one or more cations initially included in the reaction mixture is greater than or equal to about 6, and heating the reaction mixture at a temperature and for a period of time sufficient to produce semiconductor nanocrystals having a predetermined composition. Methods for forming a buffer layer and/or an overcoating layer thereover are also disclosed. Semiconductor nanocrystals and compositions including semiconductor nanocrystals of the invention are also disclosed.Type: ApplicationFiled: June 7, 2013Publication date: October 17, 2013Inventors: Justin W. KAMPLAIN, Zhengguo ZHU
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Patent number: 8559479Abstract: The invention relates to a method for the production of a photon pair source, which generates entangled photon pairs, having at least one quantum dot, wherein in the method the operational behaviour of the photon pair source is determined by adjusting the fine structure splitting of the excitonic energy level of the at least one quantum dot. It is provided according to the invention for the fine structure splitting of the excitonic energy level to be adjusted by depositing the at least one quantum dot on a {111} crystal surface of a semiconductor substrate.Type: GrantFiled: July 20, 2009Date of Patent: October 15, 2013Assignee: Technische Universitat BerlinInventors: Momme Winkelnkemper, Andrei Schliwa, Dieter Bimberg
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Publication number: 20130267054Abstract: A semiconductor light emitting device includes a lower cladding layer, an active layer, and an AlGaAs upper cladding layer mounted on a GaAs substrate. The semiconductor light emitting device has a ridge structure including the AlGaAs upper cladding layer. The semiconductor light emitting device further includes an InGaAs etching stop layer provided in contact with the lower side of the AlGaAs upper cladding layer. The InGaAs etching stop layer has a band gap greater than that of the active layer.Type: ApplicationFiled: June 5, 2013Publication date: October 10, 2013Inventors: Nobuaki Hatori, Tsuyoshi Yamamoto, Hisao Sudo, Yasuhiko Arakawa
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Publication number: 20130266328Abstract: Apparatus for transmitting and receiving information using one or more quantum-entangled particles. The apparatus may include a first substrate including a first row of quantum dots and a second substrate including a second row of quantum dots. The apparatus may also include a beam splitter configured to inject a first particle into a first quantum dot and to inject a second particle into a second quantum dot. A physical property of the first particle may be in a quantum-entangled state with a physical property of the second particle. The apparatus may further include a first wave source configured to move the first particle along the first row of quantum dot, and a second wave source configured to move the second particle along the second row of quantum dots.Type: ApplicationFiled: March 15, 2013Publication date: October 10, 2013Inventor: Marc S. Paller
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Publication number: 20130263918Abstract: Photovoltaic nanocomposite and solar cell device including the photovoltaic nanocomposite, where the photovoltaic nanocomposite includes a film of solution processed semiconductor materials having an n-type material selected from n-type quantum dots and n-type nanocrystals, and a p-type material selected from p-type quantum dots and p-type nanocrystals, and where the n-type material has a conduction band level at least equal, compared to vacuum level, to that of the p-type material, the p-type material has a valence band at the most equal, compared to vacuum level, to that of the n-type material. at least a portion of the n-type material and at least a portion of the p-type material are present in a bulk nano-heterojunction binary nanocomposite layer having a blend of the n-type material and the p-type material.Type: ApplicationFiled: April 9, 2012Publication date: October 10, 2013Applicant: FUNDACIÓ INSTITUT DE CIÈNCIES FOTÒNIQUESInventors: GERASIMOS KONSTANTATOS, ARUP KUMAR RATH, MARIA BERNECHEA NAVARRO, LUIS MARTINEZ MONTBLANCH
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Publication number: 20130267052Abstract: A method for manufacturing a semiconductor light emitting device includes forming a lower cladding layer over a GaAs substrate; forming a quantum dot active layer over the lower cladding layer; forming a first semiconductor layer over the quantum dot active layer; forming a diffraction grating by etching the first semiconductor layer; forming a second semiconductor layer burying the diffraction grating; and forming an upper cladding layer having a conductive type different from that of the lower cladding layer over the second semiconductor layer, wherein the processes after forming the quantum dot active layer are performed at a temperature not thermally deteriorating or degrading quantum dots included in the quantum dot active layer.Type: ApplicationFiled: May 21, 2013Publication date: October 10, 2013Inventors: Nobuaki Hatori, Tsuyoshi Yamamoto, Manabu Matsuda, Yasuhiko Arakawa
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Patent number: 8551727Abstract: Disclosed are a metal nanoparticle onto which a peptide substrate specifically degraded by protease and fluorophore are chemically modified for selectively imaging protease expressed in cell and in tissue in a human body, and the use thereof. Also, a quantitative analysis method of protease using the metal nanoparticle, a cell imaging method and a drug screening method of inhibiting a protease overexpression are provided. In detail, the present invention is directed to a metal nanoparticle having a peptide substrate and fluorophore coupled thereto, the peptide substrate and the fluorophore being specifically degraded by due to a protease activated in various ways in cell and in a human body to exhibit fluorescence. Hence, the metal nanoparticle can be used to rapidly screen activation and inhibition of the protease in the imaging manner.Type: GrantFiled: April 10, 2008Date of Patent: October 8, 2013Assignee: Korea Institute of Science and TechnologyInventors: Ick-Chan Kwon, Kui-Won Choi, Kwang-Meyung Kim, Cheol-Hee Ahn, In-Chan Youn, Seul-Ki Lee, Kyeong-Soon Park
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Patent number: 8552110Abstract: Polymerization process for preparing mono-disperse organic/inorganic nanocomposite microspheres in the field of nano technology is disclosed. The process comprises preparing of two different miniemulsion systems of A with inorganic nanoparticles and B with polymeric monomers in advance; adding water-soluble initiator into miniemulsion A, stirring till complete dissolution finally, heating the mixed system to a given temperature for isothermal reaction. The grain size of the as-prepared superparamagnetic Fe3O4/polystyrene using to present invention is homogeneous and controllable, and the magnetic particles content is controllable.Type: GrantFiled: January 11, 2007Date of Patent: October 8, 2013Assignee: Shanghai Allrun Nano Science and Technology Co., Ltd.Inventors: Longlan Cui, Hong Xu, Hongchen Gu
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Patent number: 8551868Abstract: A method of fabricating quantum confinements is provided. The method includes depositing, using a deposition apparatus, a material layer on a substrate, where the depositing includes irradiating the layer, before a cycle, during a cycle, and/or after a cycle of the deposition to alter nucleation of quantum confinements in the material layer to control a size and/or a shape of the quantum confinements. The quantum confinements can include quantum wells, nanowires, or quantum dots. The irradiation can be in-situ or ex-situ with respect to the deposition apparatus. The irradiation can include irradiation by photons, electrons, or ions. The deposition is can include atomic layer deposition, chemical vapor deposition, MOCVD, molecular beam epitaxy, evaporation, sputtering, or pulsed-laser deposition.Type: GrantFiled: March 24, 2011Date of Patent: October 8, 2013Assignees: The Board of Trustees of the Leland Stanford Junior Universit, Honda Patents & Technologies North America, LLCInventors: Timothy P. Holme, Andrei Iancu, Hee Joon Jung, Michael C Langston, Munekazu Motoyama, Friedrich B. Prinz, Takane Usui, Hitoshi Iwadate, Neil Dasgupta, Cheng-Chieh Chao
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Patent number: 8552417Abstract: The present application provides a light-emissive nitride nanoparticle, for example a nanocrystal, having a photoluminescence quantum yield of at least 1%. This quantum yield is significantly greater than for prior nitride nanoparticles, which have been only weakly emissive and have had poor control over the size of the nanoparticles produced. The nanoparticle includes at least one capping agent provided on a surface of the nitride crystal and containing an electron-accepting group for passivating nitrogen atoms at the surface of the crystal. The invention also provides non-emissive nitride nanoparticles.Type: GrantFiled: January 26, 2010Date of Patent: October 8, 2013Assignee: Sharp Kabushiki KaishaInventors: Peter Neil Taylor, Jonathan Heffernan
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Patent number: 8552415Abstract: A solid-state imaging device includes a first electrode, a second electrode disposed opposing to the first electrode, and a photoelectric conversion layer, which is disposed between the first electrode and the second electrode and in which narrow gap semiconductor quantum dots are dispersed in a conductive layer, wherein one electrode of the first electrode and the second electrode is formed from a transparent electrode and the other electrode is formed from a metal electrode or a transparent electrode.Type: GrantFiled: January 25, 2010Date of Patent: October 8, 2013Assignee: Sony CorporationInventor: Atsushi Toda
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Publication number: 20130255754Abstract: An organic/inorganic hybrid photovoltaic device architecture. In some variations, power conversion efficiencies approach 1%. Some variations include an unexpected order of magnitude improvement of power conversion efficiency approaching 5%. Methods of fabricating a photovoltaic device, including depositing over a first electrode an organic semiconductor layer; depositing over the organic semiconductor layer a cross-linking ligand layer; depositing over the cross-linking ligand layer an inorganic nanocrystal layer; and depositing a second electrode over the inorganic nanocrystal layer.Type: ApplicationFiled: March 29, 2012Publication date: October 3, 2013Applicant: CAMBRIDGE ENTERPRISE LIMITEDInventors: Richard Henry Friend, Neil Clement Greenham, Bruno Ehrler, Brian Walker
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Publication number: 20130259079Abstract: A III-nitride based quantum dot (QD) laser is formed of InGaN/GaN quantum dots and capable emitting at a single wavelength within the visible region, including the violet wavelength region (400-440 nm), the blue wavelength region (440-490 nm), the green wavelength region (490-570 nm), the yellow wavelength region (570-590 nm), the orange wavelength region (590-620 nm), and the red wavelength region (620-700 nm), with varying composition as described.Type: ApplicationFiled: December 20, 2012Publication date: October 3, 2013Applicant: THE REGENTS OF THE UNIVERSITY OF MICHIGANInventor: THE REGENTS OF THE UNIVERSITY OF MICHIGAN
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Patent number: 8546853Abstract: A photodetector is described along with corresponding materials, systems, and methods. The photodetector comprises an integrated circuit and at least two optically sensitive layers. A first optically sensitive layer is over at least a portion of the integrated circuit, and a second optically sensitive layer is over the first optically sensitive layer. Each optically sensitive layer is interposed between two electrodes. The two electrodes include a respective first electrode and a respective second electrode. The integrated circuit selectively applies a bias to the electrodes and reads signals from the optically sensitive layers. The signal is related to the number of photons received by the respective optically sensitive layer.Type: GrantFiled: August 12, 2011Date of Patent: October 1, 2013Assignee: InVisage Technologies, Inc.Inventors: Hui Tian, Edward Sargent
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Patent number: 8547617Abstract: A component comprising a qubit and a controller for said qubit, said component comprising a quantum dot and an excitation portion configured to produce a neutral exciton state in said quantum dot to form said qubit, the component further comprising a measuring unit to make an optical measurement relating to the orientation of said state, wherein said controller comprises voltage source coupled to electrical contacts configured to apply a modulated electric field across said quantum dot, wherein the modulation is faster than the decay time of said neutral exciton state.Type: GrantFiled: March 3, 2011Date of Patent: October 1, 2013Assignee: Kabushiki Kaisha ToshibaInventors: Anthony John Bennett, Richard Mark Stevenson, Andrew James Shields
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Publication number: 20130240788Abstract: A nanocrystal capable of light emission includes a nanoparticle having photoluminescence having quantum yields of greater than 30%.Type: ApplicationFiled: May 9, 2013Publication date: September 19, 2013Applicant: Massachusetts Institute of TechnologyInventors: Moungi G. Bawendi, Klavs F. Jensen, Bashir O. Dabbousi, Javier Rodriguez-Viejo, Frederic Victor Mikulec
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Publication number: 20130214249Abstract: An electronic device comprising a quantum dot and an organic host, a mixture comprising a quantum dot and an organic host, a quantum dot, a method for preparing a quantum dot (QD), and a formulation including the mixture or the quantum dot are provided.Type: ApplicationFiled: June 28, 2011Publication date: August 22, 2013Applicant: Merck Patent GmbHInventors: Junyou Pan, Niels Schulte, Thomas Eberle, Volker Hilarius
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Publication number: 20130215643Abstract: The invention provides a lighting device comprising (a) a transparent waveguide plate (200), with first surface (201), opposite second surface (202), and edge surface between the first surface and the second surface, (b) a light source (300) for providing light source light towards a light incoupling surface of the transparent waveguide plate, configured to provide at least part of the light source light in a direction perpendicular to one or more of the first surface and the second surface. The transparent waveguide plate further comprises a luminescent material, (400) configured to convert at least part of the light source light into luminescent material emission, and light outcoupling means (220) for coupling luminescent material emission and optionally light source light out of the transparent waveguide plate as lighting device light in a direction away from one or more of the first surface and the second surface.Type: ApplicationFiled: October 20, 2011Publication date: August 22, 2013Applicant: Koninklijke Philips Electronics N.V.Inventors: Rifat Ata Mustafa Hikmet, Roy Gerardus Franciscus Antoniu Verbeek, Ties Van Bommel
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Patent number: 8512672Abstract: Provided are a method for preparing zinc oxide (ZnO) nanoparticles and a method for preparing ZnO nanofluid using the same. The method for preparing ZnO nanoparticles includes: a) heating deionized water; b) dissolving zinc (Zn) salt in the deionized water to prepare a precursor solution; c) adding solid alkali salt to the precursor solution to prepare a dispersion of ZnO nanoparticles; and d) separating the ZnO nanoparticles by solid-liquid separation and washing them with deionized water. Highly pure, crystalline ZnO nanoparticles with spherical shape and very narrow particle size distribution of 10 to 50 nm can be prepared quickly and at large scale and low cost using inexpensive materials via a stable low-temperature process, without using a dispersant. The associated low-temperature, normal-pressure process produces few harmful materials and may be easily employed for production of ZnO nanoparticles.Type: GrantFiled: August 24, 2010Date of Patent: August 20, 2013Assignee: Korea Institute of Geoscience and Mineral ResourcesInventors: Hyo-sook Lee, Yong Jae Suh, Dae Sup Kil, Kuk Cho
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Fluorescent substance-containing silica nanoparticles with coating having high bulk refractive index
Patent number: 8513031Abstract: Disclosed are fluorescent substance-containing silica nanoparticles containing a fluorescent substance therein featured in that the surface of the silica nanoparticles is coated with a material having a bulk refractive index of from 1.60 to 4.00. The invention can provide fluorescent substance-containing silica nanoparticles excellent in long term storage stability and a biosubstance labeling agent employing the same.Type: GrantFiled: November 4, 2010Date of Patent: August 20, 2013Assignee: Konica Minolta Medical & Graphic, Inc.Inventors: Takuji Aimiya, Hideki Hoshino -
Publication number: 20130208482Abstract: In embodiments of imaging structure color conversion, an imaging structure includes a silicon backplane with a driver pad array. An embedded light source is formed on the driver pad array in an emitter material layer, and the embedded light source emits light in a first color. A conductive material layer over the embedded light source forms a p-n junction between the emitter material layer and the conductive material layer. A color conversion layer can then convert a portion of the first color to at least a second color. Further, micro lens optics can be implemented to direct the light that is emitted through the color conversion layer.Type: ApplicationFiled: February 15, 2012Publication date: August 15, 2013Inventors: Rod G. Fleck, David D. Bohn, Andreas G. Nowatzyk
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Publication number: 20130208332Abstract: An optical plate includes a substrate and a resonator structure formed on or in the substrate, wherein the resonator structure is configured to produce an abrupt change in phase, amplitude and/or polarization of incident radiation.Type: ApplicationFiled: March 15, 2013Publication date: August 15, 2013Applicant: President and Fellows of Harvard CollegeInventors: Nanfang Yu, Federico Capasso, Zeno Gaburro, Patrice Genevet, Mikhail Kats, Francesco Aieta
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Publication number: 20130206215Abstract: Photoelectrochemical solar cells (PECs) have been constructed and studied, the cells comprising a photoanode prepared by direct deposition of independently synthesized nanocrystal quantum dots (NQDs) onto a nanocrystalline metal oxide film, aqueous electrolyte and a counter electrode. It has been shown that the light harvesting efficiency (LHE) of the NQD/metal oxide photoanode is significantly enhanced when the NQD surface passivation is changed to a smaller ligand (e.g. butylamine (BA)). In the PEC the use of NQDs with a shorter passivating ligand leads to a significant enhancement in both the electron injection efficiency at the NQD/metal oxide interface and charge collection efficiency at the NQD/electrolyte interface.Type: ApplicationFiled: March 11, 2013Publication date: August 15, 2013Applicants: SHARP CORPORATION, LOS ALAMOS NATIONAL SECURITY, LLCInventors: Los Alamos National Security, LLC, Sharp Corporation