Search Results - emily+carter

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A New Material for Solar Energy Conversion Devices

A New Material for Solar Energy Conversion Devices Princeton Docket # 13-2905-1 To reduce the cost and improve the efficiency of current solar energy conversion devices, researchers at Princeton University have developed a novel material with improved features. This novel material is fabricated by alloying nickel oxide (NiO) with lithium (Li) in a rocksalt...
Published: 3/30/2022   |   Inventor(s): Emily Carter, Nima Alidoust, Maytal Toroker
Keywords(s): green tech, Opto-Electronics/ELE ENG, solar cell
Category(s): Ceramics/Material Sciences, Mechanical/Electrical Engineering

A New Dopant for Iron (II) Oxide-Based Solar Energy Conversion Devices: Enhanced Conductivity and Low Cost

Princeton Docket # 12-2823 Solar energy conversion devices include photovoltaics, photoelectrochemical cells and photocatalysts, which convert the energy of sunlight into electricity and produce fuels from carbon dioxide and water. Different materials for making the solar energy conversion devices exhibit different energy conversion efficiencies...
Published: 3/30/2022   |   Inventor(s): Emily Carter, Maytal Toroker
Keywords(s): solar cell
Category(s): Mechanical/Electrical Engineering

Novel Alloying Elements for Ni Cermet Anodes in Solid Oxide Fuel Cells-Improved Thermal Stability

Princeton Docket # 12-2824 With high electrical efficiency, long-term stability, fuel flexibility, low emissions, and relatively low cost, solid oxide fuel cells (SOFCs) hold great potential for widescale deployment of fuel cell technology. The anodes of most solid oxide fuel cells (SOFCs) are made of nickel/yttria-stabilized zirconia composites (Ni...
Published: 3/30/2022   |   Inventor(s): Emily Carter
Keywords(s): Opto-Electronics/ELE ENG, solar cell
Category(s): Mechanical/Electrical Engineering

Inexpensive and Efficient Materials for Solar Energy Conversion Devices

Princeton Docket # 12-2790 Solar energy conversion devices include photovoltaics, photoelectrochemical cells and photocatalysts, which convert the energy of sunlight into electricity and/or produce fuels from carbon dioxide and water. Wide-scale implementation of these devices requires the development of less expensive materials with highly specific...
Published: 3/30/2022   |   Inventor(s): Emily Carter, Leah Isseroff
Keywords(s): green tech, Opto-Electronics/ELE ENG, solar cell
Category(s): Ceramics/Material Sciences, Mechanical/Electrical Engineering

Inexpensive, Efficient, and Robust Materials for Solar Energy Conversion Devices

Princeton Docket # 12-2782 Solar energy conversion devices include photovoltaics, photoelectrochemical cells and photocatalysts, which convert the energy of sunlight into electricity and/or produce fuels from carbon dioxide and water. Wide-scale implementation of these devices requires the development of less expensive materials with highly specific...
Published: 3/30/2022   |   Inventor(s): Emily Carter, Dalal Kanan
Keywords(s): green tech, solar cell
Category(s): Ceramics/Material Sciences, Mechanical/Electrical Engineering

New Dopants for Iron (II) Oxide-Based Solar Energy Conversion Devices: Enhanced Conductivity

Princeton Docket # 12-2774 Solar energy conversion devices include photovoltaics, photoelectrochemical cells and photocatalysts, which convert the energy of sunlight into electricity and produce fuels from carbon dioxide and water. Different materials for making the solar energy conversion devices exhibit different energy conversion efficiencies...
Published: 3/30/2022   |   Inventor(s): Emily Carter, Maytal Toroker
Keywords(s):  
Category(s): Ceramics/Material Sciences, Mechanical/Electrical Engineering

New Iron (II) Oxide Alloys for Solar Energy Conversion Devices: Reduced Cost and Enhanced Efficiency

Princeton Docket # 12-2773 Solar energy conversion devices include photovoltaics, photoelectrochemical cells and photocatalysts, which convert the energy of sunlight into electricity and produce fuels from carbon dioxide and water. Solar energy conversion devices exhibit different energy conversion efficiencies and costs. Currently, the most prevalent...
Published: 3/30/2022   |   Inventor(s): Emily Carter, Maytal Toroker
Keywords(s):  
Category(s): Ceramics/Material Sciences, Mechanical/Electrical Engineering

Reducing Overpotentials in Hematite Photoanode Photoelectrochemical Cells by Doping

Manganese, Cobalt, and Nickel as Effective Additives for Hematite-Based Photoanodes Princeton Docket # 12-2755 Photoelectrochemical cells (PECs) generate fuel from sunlight-driven electrochemical reactions. It is highly desirable to find cheap and effective means to generate hydrogen via water splitting reactions. Among the many potential candidates...
Published: 3/30/2022   |   Inventor(s): Emily Carter, Peilin Liao, John Keith
Keywords(s):  
Category(s): Ceramics/Material Sciences, Chemistry, Mechanical/Electrical Engineering

Barium-Doped Bond Coats for Thermal Barrier Coatings

Docket # 08-2485-01 Researchers at Princeton have patented a new thermal barrier coating composition to protect aircraft jet engines and turbine engines for electrical power operating at otherwise prohibitively high temperatures. Improvements to the performance of thermal barrier coatings can lead to lower maintenance, lower energy costs, and...
Published: 3/30/2022   |   Inventor(s): Emily Carter, Ivan Milas
Keywords(s):  
Category(s): Ceramics/Material Sciences