Patents Examined by Allison Bourke
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Patent number: 9722101Abstract: A solar cell includes a photoelectric conversion section having first and second principal surfaces, and a collecting electrode formed on the first principal surface. The collecting electrode includes first and second electroconductive layers in this order from the photoelectric conversion section side, and includes an insulating layer between the first and second electroconductive layers. The insulating layer is provided with an opening, and the first and second electroconductive layers are in conduction with each other via the opening provided in the insulating layer. The solar cell has, on the first principal surface, the second principal surface or a side surface of the photoelectric conversion section, an insulating region freed of a short circuit of front and back sides of the photoelectric conversion section, and the surface of the insulating region is at least partially covered with the insulating layer.Type: GrantFiled: December 21, 2012Date of Patent: August 1, 2017Assignee: KANEKA CORPORATIONInventors: Daisuke Adachi, Kenji Yamamoto
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Patent number: 9716218Abstract: A manufacturing method of a thermoelectric module comprises forming a first wax model in which the first thermoelectric elements are arranged in a predetermined pattern, forming a first mold from the first wax model, casting a group of the first thermoelectric elements by pouring molten metal of a first thermoelectric material into the first mold to solidify the molten metal, forming a second wax model that represents arrangement of second thermoelectric elements to form the thermoelectric module by being connected with the first thermoelectric elements, forming a second mold from the second wax model, casting the group of the second thermoelectric elements by pouring molten metal of a second thermoelectric material into the second mold to solidify the molten metal, and connecting the group of the first thermoelectric elements with the group of the second thermoelectric elements electrically in series.Type: GrantFiled: November 19, 2013Date of Patent: July 25, 2017Assignee: AISIN TAKAOKA CO., LTD.Inventors: Hitoshi Yoshimi, Kiyohito Kondo, Huai-sheng Dai, Tomiyuki Murayama, Zhong-zhi Zhang, Takeshi Seo
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Patent number: 9705061Abstract: A thermoelectric conversion module includes a pair of substrates, electrodes formed on the facing surfaces of a pair of the electrodes, a thermoelectric element disposed between the electrodes, and a joining layer that joins the electrodes and the thermoelectric element, in which the thickness of the joining layer is 30 ?m or more, and is formed by sintering paste including metal particles smaller than 100 nm.Type: GrantFiled: February 15, 2013Date of Patent: July 11, 2017Assignee: Yamaha CorporationInventor: Takahiro Hayashi
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Patent number: 9705018Abstract: A photoelectric conversion element of an embodiment includes: a back electrode; a heterojunction-type light absorbing layer on the back electrode, containing Cu, selected from Al, In and Ga, and selected from Se and S, and having a chalcopyrite structure; a transparent electrode on the light absorbing layer, wherein aback electrode side-part of the light absorbing layer is of p-type, and a transparent electrode-side part of the light absorbing layer is of n-type, the light absorbing layer has a part with an average crystal grain size of 1,000 nm to 3,000 nm in the vicinity of the back electrode, and the light absorbing layer has apart with an average crystal grain size of at most 500 nm in the vicinity of the transparent electrode or the light absorbing layer has an amorphous part in the vicinity of the transparent electrode.Type: GrantFiled: November 20, 2013Date of Patent: July 11, 2017Assignee: KABUSHIKI KAISHA TOSHIBAInventors: Naoyuki Nakagawa, Soichiro Shibasaki, Hiroki Hiraga, Mutsuki Yamazaki, Kazushige Yamamoto, Shinya Sakurada, Michihiko Inaba
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Patent number: 9705022Abstract: This photovoltaic device is provided with a crystalline semiconductor substrate, and a first amorphous layer formed on the main surface of the substrate. At the interface between the substrate and the first amorphous layer, electrical conductivity can be improved while suppressing an increase in recombination centers, and power generation efficiency can be improved by having a p-type dopant density profile that decreases stepwise in the film thickness direction from the vicinity of the interface with the substrate.Type: GrantFiled: August 27, 2014Date of Patent: July 11, 2017Assignee: PANASONIC INTELLECTUAL PROPERTY MANAGEMENT CO., LTD.Inventors: Yasufumi Tsunomura, Akiyoshi Ogane, Toshiaki Baba
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Patent number: 9705019Abstract: Disclosed are a solar cell module and a method of fabricating the same. The solar cell module includes a back electrode layer disposed on a support substrate and having a first separation pattern, a light absorbing layer disposed on the back electrode layer and having a second separation pattern, and a plurality of solar cells disposed on the light absorbing layer and formed with a front electrode layer including an insulator.Type: GrantFiled: November 30, 2012Date of Patent: July 11, 2017Assignee: LG INNOTEK CO., LTD.Inventor: Suk Jae Jee
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Patent number: 9705448Abstract: A dual-use solar energy conversion system has an innovative structural framework which accurately maintains the relative position and alignment of functional system components. The system has parabolic trough reflectors which focus solar radiation onto arrays of solar cells. The cells convert a portion of the incident radiation into electrical energy and the rest is collected in a cooling fluid and subsequently discharged as low-grade thermal energy to an energy storage medium. During operation, the entire system rotates about a vertical axis to track the azimuthal position of the sun.Type: GrantFiled: August 11, 2015Date of Patent: July 11, 2017Inventor: James T. Ganley
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Patent number: 9698726Abstract: The disclosed technology describes methods and devices for generating electricity and heat using a parabolic solar panel which employs photo-voltaic and photo-thermal technology. Embodiments include forming a flexible substrate into a parabola. A plurality of flexible photo-voltaic cells is disposed in a grid pattern over the interior surface of the parabola. Photo-reflective mirrors are disposed on the parabola's interior surface in areas not occupied by photo-voltaic cells. A copper pipe is positioned to coincide with the parabola's focal line, so that light rays reflected off the parabola are focused on the copper pipe. Inflow and outflow tubes are attached to opposite ends of the copper pipe. Water or other heat absorbing liquid is circulated through the copper pipe where the liquid absorbs thermal energy of the sunrays reflected from the photo-reflective mirrors. The liquid can be directed to a device which converts the liquid's thermal energy to electricity.Type: GrantFiled: June 29, 2015Date of Patent: July 4, 2017Inventor: Banmali Banerjee
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Patent number: 9698288Abstract: In order to improve the photoelectric conversion efficiency of a photoelectric conversion device, this photoelectric conversion device is provided with an electrode layer, a first semiconductor layer that is positioned on the electrode layer and contains a polycrystalline semiconductor, and a second semiconductor layer that is positioned on/above the first semiconductor layer and forms a p-n junction with the first semiconductor layer, and an average grain diameter of crystal grains in the first semiconductor layer is larger near the surface on the electrode layer side of the first semiconductor layer than the center of the first semiconductor layer in a thickness direction of the first semiconductor layer. Furthermore, the average grain diameter of the crystal grains in the first semiconductor layer is larger in a surface portion on the second semiconductor layer side of the first semiconductor layer than in the central portion.Type: GrantFiled: December 25, 2012Date of Patent: July 4, 2017Assignee: KYOCERA CorporationInventors: Yusuke Miyamichi, Tatsuya Domoto, Yuji Asano, Rui Kamada
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Patent number: 9691913Abstract: A solar cell module is provided with: a plurality of solar cells, each of which comprises a first electrode and a second electrode that are formed on a photoelectric conversion unit; and a wiring material that is fitted on the first electrode and the second electrode using an adhesive and connects the solar cells with each other. The adhesive is provided so as to extend beyond a region (R) directly below the wiring material and to adhere to a lateral surface of the wiring material. The solar cell module has a pore in the region (R) directly below the wiring material.Type: GrantFiled: September 5, 2014Date of Patent: June 27, 2017Assignee: PANASONIC INTELLECTUAL PROPERTY MANAGEMENT CO., LTD.Inventors: Tsukasa Kawakami, Masahiro Iwata
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Patent number: 9680117Abstract: A thin film organic photovoltaic device or solar cell in one embodiment includes an organic active bilayer and an ultrathin two-dimensional metallic nanogrid as a transparent conducting electrode which receives incident light. The nanogrid excites surface plasmonic resonances at an interface between the nanogrid and active bilayer from the incident light to enhance photon absorption in the active bilayer below the nanogrid. In another embodiment, spatially separated nanograting electrodes may alternatively be formed by double one-dimensional nanogratings disposed on opposite sides of the organic active bilayer. The spatially separated nanogratings may be oriented perpendicular to each other.Type: GrantFiled: April 3, 2014Date of Patent: June 13, 2017Inventors: Filbert Joseph Bartoli, Beibei Zeng
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Patent number: 9673751Abstract: The present invention relates to a rotating solar concentrating device wherein reflective sheets hung in a catenary trough shape capable of solar concentration may be protectively furled and balanced and rotated about a vertical axis. The reflective sheets may be furled to protect them from damage from wind, rain, and dust. In some embodiments, rotating parts of the device may be hung from supports above. In some embodiments, a furling mechanism may initiate protective furling in response to damaging environmental factors. Some embodiments may concentrate light on a photovoltaic cell wherein the photovoltaic cell is cooled by immersion in a heat pipe. In some embodiments, reflective surfaces may be supported by cables that are tensioned by a hanging, rotating ballast. In some embodiments, the device may be employed in a ganged array. In some embodiments, the invention may harvest wind energy as a vertical axis wind turbine (VAWT).Type: GrantFiled: May 5, 2014Date of Patent: June 6, 2017Inventor: David Timothy Dobney
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Patent number: 9664640Abstract: An O2 sensor has a sensor element, which includes a solid electrolyte layer and a pair of electrodes. The solid electrolyte layer is held between the electrodes, which includes an atmosphere side electrode and an exhaust side electrode. A constant current circuit is installed in an electric path, which connects between the atmosphere side electrode and a ground, to induce a flow of a predetermined constant electric current between the electrodes through the solid electrolyte layer. When the sensor element generates an electromotive force, the constant current circuit conducts an electric current, which is generated while using the electromotive force of the sensor element as an electric power source, to induce the flow of the predetermined constant electric current between the electrodes in an electromotive force range, which is equal to or larger than an electromotive force of the sensor element generated at a stoichiometric air-to-fuel ratio.Type: GrantFiled: August 8, 2014Date of Patent: May 30, 2017Assignee: DENSO CORPORATIONInventors: Yuji Yamada, Mikiyasu Matsuoka, Kenichi Ono, Takamasa Oguri, Takao Mishima
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Patent number: 9666377Abstract: Disclosed is an internal current collection structure of a tubular thermal to electric converting cell including an internal electrode, a solid electrolyte and an external electrode. The internal current collection structure includes: a first current collector which closely contacts with the internal electrode of the tubular thermal to electric converting cell; a second current collector which fixes the first porous current collector to the inside of the tubular thermal to electric converting cell and causes the first current collector to be in close contact with the internal electrode; and a lead wire which is a conductive medium and is located between the first current collector and the second current collector.Type: GrantFiled: August 8, 2013Date of Patent: May 30, 2017Assignee: KOREA INSTITUTE OF ENERGY RESEARCHInventors: Sun-Dong Kim, Sang-Kuk Woo, Se-Young Kim, Jong-Hoon Joo, In-Sub Han, Doo-Won Seo, Min-Soo Suh
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Patent number: 9660166Abstract: A thermoelectric conversion element (1) having, on a substrate (12), a first electrode (13), a thermoelectric conversion layer (14), and a second electrode 15, wherein a nano conductive material and a low band gap material are contained in the thermoelectric conversion layer (14); an article for thermoelectric power generation and a power supply for a sensor using the thermoelectric conversion element (1); and a thermoelectric conversion material containing the nano conductive material and the low band gap material.Type: GrantFiled: September 23, 2015Date of Patent: May 23, 2017Assignee: FUJIFILM CorporationInventors: Ryo Nishio, Ryo Hamasaki, Kimiatsu Nomura, Yoichi Maruyama
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Patent number: 9640771Abstract: This invention provides a nanofiber, including: a core, which extends along the axis of the nanofiber, and its main component includes Ag(NH3)2+ or AgNO3; a shell, which extends along the nanofiber and coats the core of the nanofiber, and its main component of the shell structure includes: PVP, TBAP, SDS, grapheme, PMAA or PFBT nanoparticle. Moreover, the invention also provides a photovoltaic device which comprises the patterned nanofibers.Type: GrantFiled: January 23, 2015Date of Patent: May 2, 2017Assignee: NATIONAL TAIWAN UNIVERSITYInventors: Wen-Chang Chen, Yu-Cheng Chiu, Jung-Yao Chen
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Patent number: 9634218Abstract: The present invention provides a method for synthesizing a Bi2TeySe3-y thermoelectric nanocompound (0<y<3), comprising the following steps: preparing a Bi—Te—Se solution by adding Bi, Te, and Se precursors to a solvent (step 1); preparing a hydrate by mixing the Bi—Te—Se solution prepared in step 1) with a base aqueous solution (step 2); preparing a Bi2TeySe3-y reactant by liquid phase reduction at room temperature after adding a reducing agent to the hydrate prepared in step 2) (step 3); aging the Bi2TeySe3-y reactant prepared in step 3) (step 4); and preparing Bi2TeySe3-y nanoparticles by filtering and drying the Bi2TeySe3-y reactant aged in step 4) (step 5). The Bi2TeySe3-y thermoelectric nanocompound synthesized by the method of the present invention via liquid phase reduction is composed of regular nanoparticles since the method does not need any additional heat-treatment to eliminate chemical additives and prevents particles from being over-grown.Type: GrantFiled: April 25, 2014Date of Patent: April 25, 2017Assignee: DAEGU GYEONGBUK INSTITUTE OF SCIENCE & TECHNOLOGYInventors: Cham Kim, Dong Hwan Kim, Jong Tae Kim, Ji Hyeon Ahn, Ho Young Kim
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Patent number: 9634220Abstract: The present invention provides a method for synthesizing a BixSb2-xTe3 thermoelectric nanocompound (0<x<2), comprising the following steps: preparing a Bi—Sb—Te solution by adding Bi, Sb, and Te precursors to a solvent (step 1); preparing a Bi—Sb—Te hydrate by mixing the Bi—Sb—Te solution prepared in step 1) with a base aqueous solution (step 2); preparing a BixSb2-xTe3 reactant by liquid phase reduction at room temperature after adding a reducing agent to the Bi—Sb—Te hydrate prepared in step 2) (step 3); aging the BixSb2-xTe3 reactant prepared in step 3) (step 4); and preparing BixSb2-xTe3 nanoparticles by filtering and drying the BixSb2-xTe3 reactant aged in step 4) (step 5). The BixSb2-xTe3 thermoelectric nanocompound synthesized by the method of the present invention via liquid phase reduction is composed of regular nanoparticles since the method does not need any additional heat-treatment to eliminate chemical additives and prevents particles from being over-grown.Type: GrantFiled: April 25, 2014Date of Patent: April 25, 2017Assignee: DAEGU GYEONGBUK INSTITUTE OF SCIENCE & TECHNOLOGYInventors: Cham Kim, Dong Hwan Kim, Jong Tae Kim, Ji Hyeon Ahn, Ho Young Kim
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Patent number: 9634606Abstract: Provided are novel building integrable photovoltaic (BIPV) structures having multiple photovoltaic portions offset with respect to each other along their lengths. An offset direction can correspond to the length of a row of installed BIPV structures. In some embodiments, a BIPV structure may include three offset photovoltaic portions and three corresponding flap portions for extending under photovoltaic portions of adjacent structures and sealing interfaces between installed structures. The novel BIPV structures can facilitate installation, while providing the flexibility to avoid obstacles. Provided also are novel BIPV assemblies having multi-conductor return lines extending through the assemblies. A BIPV assembly having a multi-conductor return line may include a return line for the assembly itself, and one or more return lines for other assemblies.Type: GrantFiled: November 30, 2011Date of Patent: April 25, 2017Assignee: Beijing Apollo Ding Rong Solar Technology Co., Ltd.Inventor: Roger Laurentius Balyon
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Patent number: 9634179Abstract: A method and resulting structure of patterning a metal film pattern over a substrate, including forming a metal film pattern over the substrate; depositing a coating over the substrate surface and the metal film pattern; and removing the coating over the metal film pattern by laser irradiation. The substrate and coating do not significantly interact with the laser irradiation, and the laser irradiation interacts with the metal film pattern and the coating, resulting in the removal of the coating over the metal film pattern. The invention offers a technique for the formation of a metal pattern surrounded by a dielectric coating for solar cells, where the dielectric coating may function as an antireflection coating on the front surface, internal reflector on the rear surface, and may further may function as a dielectric barrier for subsequent electroplating of metal patterns on either surface.Type: GrantFiled: January 23, 2013Date of Patent: April 25, 2017Assignee: TETRASUN, INC.Inventors: Adrian Bruce Turner, Qing Yuan Ong, Oliver Schultz-Wittmann