Patents by Inventor Jiangeng Xue
Jiangeng Xue has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20220038048Abstract: A photovoltaic system is formed as a window that is constructed of at least one polymer layer that is filled or decorated with metal nanoparticles and a window frame that includes one or more photovoltaic cells. The metal nanoparticles have a shape and size such that they display surface plasmon resonance frequencies in the near-infrared and/or the near-ultraviolet. The near-infrared and/or the near-ultraviolet radiations are scattered such that they are transmitted parallel to the face of the window to the photovoltaic cells, where an electrical current is generated.Type: ApplicationFiled: October 18, 2021Publication date: February 3, 2022Inventors: Jiangeng Xue, Wei David Wei
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Patent number: 11177766Abstract: A photovoltaic system is formed as a window that is constructed of at least one polymer layer that is filled or decorated with metal nanoparticles and a window frame that includes one or more photovoltaic cells. The metal nanoparticles have a shape and size such that they display surface plasmon resonance frequencies in the near-infrared and/or the near-ultraviolet. The near-infrared and/or the near-ultraviolet radiations are scattered such that they are transmitted parallel to the face of the window to the photovoltaic cells, where an electrical current is generated.Type: GrantFiled: March 14, 2016Date of Patent: November 16, 2021Assignee: University of Florida Research Foundation, Inc.Inventors: Jiangeng Xue, Wei David Wei
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Patent number: 10873044Abstract: Embodiments of the invention pertain to the use of alloyed semiconductor nanocrystals for use in solar cells. The use of alloyed semiconductor nanocrystals offers materials that have a flexible stoichiometry. The alloyed semiconductor may be a ternary semiconductor alloy, such as AxB1-xC or AB1-yCy, or a quaternary semiconductor alloy, such as AxByC1-x-yD, AxB1-xCyD1-y or ABxCyD1-x-y (where A, B, C, and D are different elements). In general, alloys with more than four elements can be used as well, although it can be much harder to control the synthesis and quality of such materials. Embodiments of the invention pertain to solar cells having a layer incorporating two or more organic materials such that percolated paths for one or both molecular species are created. Specific embodiments of the invention pertain to a method for fabricating nanostructured bulk heterojunction that facilitates both efficient exciton diffusion and charge transport.Type: GrantFiled: September 5, 2018Date of Patent: December 22, 2020Assignee: University of Florida Research Foundation Inc.Inventor: Jiangeng Xue
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Publication number: 20190019967Abstract: Embodiments of the invention pertain to the use of alloyed semiconductor nanocrystals for use in solar cells. The use of alloyed semiconductor nanocrystals offers materials that have a flexible stoichiometry. The alloyed semiconductor may be a ternary semiconductor alloy, such as AxB1-xC or AB1-yCy, or a quaternary semiconductor alloy, such as AxByC1-x-yD, AxB1-xCyD1-y or ABxCyD1-x-y (where A, B, C, and D are different elements). In general, alloys with more than four elements can be used as well, although it can be much harder to control the synthesis and quality of such materials. Embodiments of the invention pertain to solar cells having a layer incorporating two or more organic materials such that percolated paths for one or both molecular species are created. Specific embodiments of the invention pertain to a method for fabricating nanostructured bulk heterojunction that facilitates both efficient exciton diffusion and charge transport.Type: ApplicationFiled: September 5, 2018Publication date: January 17, 2019Inventor: Jiangeng Xue
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Publication number: 20180351012Abstract: Textured transparent layers are formed on the incident light receiving surface of thin film solar cells to increase their efficiency by altering the incident light path and capturing a portion of the light reflected at the MLA. The textured transparent layer is an array of lenses of micrometer proportions such as hemispheres, hemi-ellipsoids, partial-spheres, partial-ellipsoids, cones, pyramids, prisms, half cylinders, or combinations thereof. A method of forming the textured transparent layer to the light incident surface of the solar cell is by forming an array of lenses from a photocurable resin and its subsequent curing. The photocurable resin can be applied by inkjet printing or can be applied by roll to roll imprinting or stamping with a mold.Type: ApplicationFiled: July 31, 2018Publication date: December 6, 2018Inventors: Jiangeng Xue, Jason David Myers, Sang-Hyun Eom
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Patent number: 10121925Abstract: Textured transparent layers are formed on the incident light receiving surface of thin film solar cells to increase their efficiency by altering the incident light path and capturing a portion of the light reflected at the MLA. The textured transparent layer is an array of lenses of micrometer proportions such as hemispheres, hemi-ellipsoids, partial-spheres, partial-ellipsoids, cones, pyramids, prisms, half cylinders, or combinations thereof. A method of forming the textured transparent layer to the light incident surface of the solar cell is by forming an array of lenses from a photocurable resin and its subsequent curing. The photocurable resin can be applied by inkjet printing or can be applied by roll to roll imprinting or stamping with a mold.Type: GrantFiled: June 17, 2011Date of Patent: November 6, 2018Assignee: UNIVERSITY OF FLORIDA RESEARCH FOUNDATION, INC.Inventors: Jiangeng Xue, Jason David Myers, Sang-Hyun Eom
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Patent number: 10096789Abstract: Embodiments of the invention pertain to the use of alloyed semiconductor nanocrystals for use in solar cells. The use of alloyed semiconductor nanocrystals offers materials that have a flexible stoichiometry. The alloyed semiconductor may be a ternary semiconductor alloy, such as AxB1-xC or AB1-yCy, or a quaternary semiconductor alloy, such as AxByC1-x-yD, AxB1-xCyD1-y or ABxCyD1-x-y (where A, B, C, and D are different elements). In general, alloys with more than four elements can be used as well, although it can be much harder to control the synthesis and quality of such materials. Embodiments of the invention pertain to solar cells having a layer incorporating two or more organic materials such that percolated paths for one or both molecular species are created. Specific embodiments of the invention pertain to a method for fabricating nanostructured bulk heterojunction that facilitates both efficient exciton diffusion and charge transport.Type: GrantFiled: May 23, 2008Date of Patent: October 9, 2018Assignee: University of Florida Research Foundation, Inc.Inventor: Jiangeng Xue
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Patent number: 9735386Abstract: A white light source is a hybrid organic light emitting diode (OLED) device having an electroluminescent layer including a blue emitting organic phosphor or a combination of a green emitting organic phosphor with a blue emitting phosphor and a conversion layer including photoluminescent quantum dots (QDs) at or near the light exiting face of the hybrid OLED. The QDs down-convert a portion of the blue or blue and green light to higher wavelengths of visible light, where the combination of wavelengths exiting the device provides white light. The QDs can be within an array of microlenses on the light exiting surface of the hybrid OLED to enhance the efficiency of light emission from the electrically excited phosphors and the down-conversion QDs.Type: GrantFiled: March 11, 2014Date of Patent: August 15, 2017Assignee: UNIVERSITY OF FLORIDA RESEARCH FOUNDATION, INC.Inventor: Jiangeng Xue
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Publication number: 20160268962Abstract: A photovoltaic system is formed as a window that is constructed of at least one polymer layer that is filled or decorated with metal nanoparticles and a window frame that includes one or more photovoltaic cells. The metal nanoparticles have a shape and size such that they display surface plasmon resonance frequencies in the near-infrared and/or the near-ultraviolet. The near-infrared and/or the near-ultraviolet radiations are scattered such that they are transmitted parallel to the face of the window to the photovoltaic cells, where an electrical current is generated.Type: ApplicationFiled: March 14, 2016Publication date: September 15, 2016Inventors: Jiangeng Xue, Wei David Wei
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Patent number: 9419174Abstract: Quantum dot light emitting diodes (QD-LEDs) are formed that are transparent and emit light from the top and bottom faces. At least one electrode of the QD-LEDs is a dielectric/metal/dielectric layered structure, where the first dielectric comprises metal oxide nanoparticles or polymer-nanoparticle blends and is 10 to 40 nm in thickness, the metal layer is 5 to 25 nm in thickness, and the second dielectric layer is a nanoparticulate, polymer-nanoparticle blend or continuous layer of 30 to 200 nm in thickness and is situated distal to the light emitting layer of the QD-LED.Type: GrantFiled: September 26, 2013Date of Patent: August 16, 2016Assignee: UNIVERSITY OF FLORIDA RESEARCH FOUNDATION, INC.Inventors: Ying Zheng, Weiran Cao, Jiangeng Xue, Paul H. Holloway
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Publication number: 20160028036Abstract: A white light source is a hybrid organic light emitting diode (OLED) device having an electroluminescent layer including a blue emitting organic phosphor or a combination of a green emitting organic phosphor with a blue emitting phosphor and a conversion layer including photoluminescent quantum dots (QDs) at or near the light exiting face of the hybrid OLED. The QDs down-convert a portion of the blue or blue and green light to higher wavelengths of visible light, where the combination of wavelengths exiting the device provides white light. The QDs can be within an array of microlenses on the light exiting surface of the hybrid OLED to enhance the efficiency of light emission from the electrically excited phosphors and the down-conversion QDs.Type: ApplicationFiled: March 11, 2014Publication date: January 28, 2016Applicant: University of Florida Research Foundation, Inc.Inventor: Jiangeng Xue
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Publication number: 20150353373Abstract: A solar cell includes a low work function cathode, an active layer of an organic-inorganic nanoparticle composite, a ZnO nanoparticle layer situated between and physically contacting the cathode and active layers; and a transparent high work function anode that is a bilayer electrode. The inclusion of the ZnO nanoparticle layer results in a solar cell displaying a conversion efficiency increase and reduces the device degradation rate. Embodiments of the invention are directed to novel ZnO nanoparticles that are advantageous for use as the ZnO nanoparticle layers of the novel solar cells and a method to prepare the ZnO nanoparticles.Type: ApplicationFiled: August 18, 2015Publication date: December 10, 2015Inventors: LEI QIAN, JIHUA YANG, JIANGENG XUE, PAUL H. HOLLOWAY
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Patent number: 9147852Abstract: A solar cell includes a low work function cathode, an active layer of an organic-inorganic nanoparticle composite, a ZnO nanoparticle layer situated between and physically contacting the cathode and active layers; and a transparent high work function anode that is a bilayer electrode. The inclusion of the ZnO nanoparticle layer results in a solar cell displaying a conversion efficiency increase and reduces the device degradation rate. Embodiments of the invention are directed to novel ZnO nanoparticles that are advantageous for use as the ZnO nanoparticle layers of the novel solar cells and a method to prepare the ZnO nanoparticles.Type: GrantFiled: March 5, 2010Date of Patent: September 29, 2015Assignee: UNIVERSITY OF FLORIDA RESEARCH FOUNDATION, INC.Inventors: Lei Qian, Jihua Yang, Jiangeng Xue, Paul H. Holloway
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Publication number: 20150270497Abstract: A device is provided, having a first electrode, a second electrode, and a photoactive region disposed between the first electrode and the second electrode. The photoactive region includes a first photoactive organic layer that is a mixture of small molecule organic acceptor material and a small molecule organic donor material, wherein the first photoactive organic layer has a thickness not greater than 0.8 characteristic charge transport lengths; a second photoactive organic layer in direct contact with the first organic layer, wherein the second photoactive organic layer is an unmixed layer of the small molecule organic acceptor material of the first photoactive organic layer, and the second photoactive organic layer has a thickness not less than about 0.1 optical absorption lengths; and a third photoactive organic layer disposed between the first electrode and the second electrode and in direct contact with the first photoactive organic layer.Type: ApplicationFiled: April 24, 2015Publication date: September 24, 2015Applicant: THE TRUSTEES OF PRINCETON UNIVERSITYInventors: Jiangeng XUE, Soichi UCHIDA, Barry P. Rand, Stephen Forrest
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Patent number: 9112164Abstract: A device is provided, having a first electrode, a second electrode, and a photoactive region disposed between the first electrode and the second electrode. The photoactive region includes a first photoactive organic layer that is a mixture of an organic acceptor material and an organic donor material, wherein the first photoactive organic layer has a thickness not greater than 0.8 characteristic charge transport lengths; a second photoactive organic layer in direct contact with the first organic layer, wherein the second photoactive organic layer is an unmixed layer of the organic acceptor material of the first photoactive organic layer, and the second photoactive organic layer has a thickness not less than about 0.1 optical absorption lengths; and a third photoactive organic layer disposed between the first electrode and the second electrode and in direct contact with the first photoactive organic layer.Type: GrantFiled: October 31, 2013Date of Patent: August 18, 2015Assignee: The Trustees of Princeton UniversityInventors: Jiangeng Xue, Soichi Uchida, Barry P. Rand, Stephen Forrest
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Publication number: 20150228850Abstract: Quantum dot light emitting diodes (QD-LEDs) are formed that are transparent and emit light from the top and bottom faces. At least one electrode of the QD-LEDs is a dielectric/metal/dielectric layered structure, where the first dielectric comprises metal oxide nanoparticles or polymer-nanoparticle blends and is 10 to 40 nm in thickness, the metal layer is 5 to 25 nm in thickness, and the second dielectric layer is a nanoparticulate, polymer-nanoparticle blend or continuous layer of 30 to 200 nm in thickness and is situated distal to the light emitting layer of the QD-LED.Type: ApplicationFiled: September 26, 2013Publication date: August 13, 2015Applicant: UNIVERITY OF FLORIDA RESEARCH FOUNDATON, INC.Inventors: Ying Zheng, Weiran Cao, Jiangeng Xue, Paul H. Holloway
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Patent number: 9054330Abstract: Embodiments of the invention are directed to quantum dot light emitting diodes (QD-LEDs) where the electron injection and transport layer comprises inorganic nanoparticles (I-NPs). The use of I-NPs results in an improved QD-LED over those having a conventional organic based electron injection and transport layer and does not require chemical reaction to form the inorganic layer. In one embodiment of the invention the hole injection and transport layer can be metal oxide nanoparticles (MO-NPs) which allows the entire device to have the stability of an all inorganic system and permit formation of the QD-LED by a series of relatively inexpensive steps involving deposition of suspensions of nanoparticles and removing the suspending vehicle.Type: GrantFiled: July 7, 2010Date of Patent: June 9, 2015Assignee: UNIVERSITY OF FLORIDA RESEARCH FOUNDATION, INC.Inventors: Lei Qian, Ying Zheng, Jiangeng Xue, Paul H. Holloway
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Patent number: 8950886Abstract: A solar-powered lighting module is provided, including a solar cell for generating electricity when exposed to light, a battery for storing charge from the generated electricity, and a light generating device powered by the stored charge. In an embodiment, the module further includes a controller that regulates the current transmitted between the components of the module. In a further embodiment, the module is incorporated into an interface to an environmentally controlled space and can be positioned to light an interior portion of the space. In another embodiment, the solar cell and light generating device are transparent to allow light to pass through the interface. In a further embodiment, tinted-color conjugated polymers incorporated into the module limit the spectrum of light that can pass through the interface. In yet another embodiment, a method of modifying an existing interface with such a module is provided.Type: GrantFiled: June 2, 2010Date of Patent: February 10, 2015Assignee: University of Florida Research Foundation, Inc.Inventors: Ying S. Meng, Karl R. Zawoy, Jiangeng Xue, Franky So, John R. Reynolds
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Publication number: 20140345682Abstract: A photoactive layer for an organic photovoltaic device has a supramolecular assembly of donors or acceptors formed from a plurality of units that are mixed with electron acceptors or electron donors, respectively, to form an ordered or semi-ordered bulk heterojunction structure. Each unit is formed from a plurality of sub-units that are combined and ordered by hydrogen bonding or other non-covalent interactions to form units that by ?-stacking and, optionally, other forces are organized into the supramolecular assembly. Each sub-unit includes at least one electron donor or acceptor moiety, at least one non-covalent interacting moiety, and a linking moiety between the non-covalent interacting moiety and the electron donor or electron acceptor moiety of the sub-unit. The organized supramolecular assembly connects donors or acceptors through the thickness of the photoactive layer, and allows parallel continuous electron acceptor or electron donor phases through the thickness of the active layer.Type: ApplicationFiled: August 7, 2014Publication date: November 27, 2014Inventors: JIANGENG XUE, RONALD KEITH CASTELLANO
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Publication number: 20140053898Abstract: A device is provided, having a first electrode, a second electrode, and a photoactive region disposed between the first electrode and the second electrode. The photoactive region includes a first photoactive organic layer that is a mixture of an organic acceptor material and an organic donor material, wherein the first photoactive organic layer has a thickness not greater than 0.8 characteristic charge transport lengths; a second photoactive organic layer in direct contact with the first organic layer, wherein the second photoactive organic layer is an unmixed layer of the organic acceptor material of the first photoactive organic layer, and the second photoactive organic layer has a thickness not less than about 0.1 optical absorption lengths; and a third photoactive organic layer disposed between the first electrode and the second electrode and in direct contact with the first photoactive organic layer.Type: ApplicationFiled: October 31, 2013Publication date: February 27, 2014Applicant: THE TRUSTEES OF PRINCETON UNIVERSITYInventors: Jiangeng XUE, Soichi UCHIDA, Barry P. Rand, Stephen Forrest