Please refer to the list of technologies below for licensing and research collaboration availability. If you can't find the technology you're interested in, please contact us at TTD@lbl.gov.
ENERGY EFFICIENT TECHNOLOGIES
- Aerosol Sealing
- Air-stable Nanomaterials for Efficient OLEDs
- APIs for Online Energy Saving Tools: Home Energy Saver and EnergyIQ
- Carbon Dioxide Capture at a Reduced Cost
- Compression Ratio Dehumidification
- Dynamic Solar Glare Blocking System
- Electrochromic Device Controlled by Sunlight
- Electrochromic Window Technology Portfolio
- Energy Efficient Condensing Side-arm Gas Water Heater
- Energy Efficient Laboratory Fume Hood
- Energy Efficient “Smart” Windows
- EnergyPlus: Energy Simulation Software for Buildings
- Energy Saving System to Remove VOCs from Indoor Air
- Field-effect P-N Junctions for Low Cost, High Efficiency Solar Cells and Electronic Devices
- First Diode for Thermal Management of Micro and Macro Devices
- Gas Filled Insulating Panels
- Heat Transfer Interface for Thermo-Solar Energy
- Lean Flame Stabilization Ring Converts Natural Gas Burners to Burn Lean
- Low Cost, Stable Switchable Mirrors
- Low Resistance, p-Type Ohmic Contacts for Energy Efficient Devices (Group III-Nitride Semiconductors)
- Novel Structured LED and OLED Devices
- Tunable Thermal Link
- Ultraclean Low Swirl Combustion
- Ultra-low Emission Natural Draft Burner
- Ventilation Controller for Improved Indoor Air Quality
ENERGY STORAGE AND RECOVERY
- Block Copolymer Cathode Binder to Simultaneously Transport Electronic Charge and Ions
- Carbon Nanofiber Supercapacitor
- Ceramic-Metal Composites for Electrodes of Lithium Ion Batteries
- Complex Oxides for Highly Efficient Solid-State Energy Conversion
- Conductive Binder for Lithium Ion Battery Electrode
- Conductive Carbon Coatings for Electrode Materials
- Directly Converting Light to Motion for Biomedical and Renewable Energy Applications
- Fast, Low Cost Method for Manufacturing Porous Structures for Fuel Cells, Catalysts and Filtration
- High Conductivity Single-ion Cross-linked Polymers for Lithium Batteries and Fuel Cells
- High-Performance Ionic Liquid Based Electrolyte for Lithium Ion and Lithium Metal Batteries
- High Power Performance Lithium Ion Battery
- Hot Electron Photovoltaics Using Low Cost Materials and Simple Cell Design
- Improved Cathode Contact Materials for Solid Oxide Fuel Cells
- Lower Cost Lithium Ion Batteries from Aluminum Substituted Cathode Materials
- Lower Cost Nanoporous Block Copolymer Battery Separator
- Mulitlayer Graphene-Silicon Structures for Lithium Ion Batteries
- Nanocomposite Carbon/Tin Anodes for Lithium Ion Batteries
- Nanocomposite for High Capacity Hydrogen Storage
- Nanoporous Metal-Inorganic Materials for Storage of Hydrogen, Carbon Dioxide (CO2) and Other Gases
- Non-Cross-Linked Gel Polymer Electrolytes for Lithium Ion Batteries
- Silicon Composite Electrode for Advanced Lithium Ion Battery
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Solid Oxide Fuel Cells:
- Braze for Robust Seals with Ceramic
- Durable Joining of Dissimilar Materials
- Easy Joining of Dissimilar Materials in Concentric Tubes
- Fail-Safe, Inexpensive Electrochemical Device Stack Design
- Fast, Low Cost Method for Manufacturing Porous Structures for Fuel Cells, Catalysts and Filtration
- Fuel Cell Housing for Rapid Start-Up Auxiliary Power and Gas Separation
- High Quality, Dense Thin Films Using Metal/Metal Alloy Additives
- Improved Electrode-Electrode Structures for Solid State Electrochemical Device
- Improved Segment-in-Series High Temperature Electrochemical Device
- Inexpensive Production of High Density Thin Ceramic Films on Rigid or Porous Substrates
- Low Cost Fabrication of Thin-Film Ceramic Membranes for Nonshrinking Substrates
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- Robust Seal for High Temperature Electrochemical Devices
- Simplified Cu-Cermet Anode Production for High Temperature Electrochemical Devices
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- Surface Additives for Enhanced Electrode Performance
- Solar Energy Storage, Transportation and Conversion
- Water-retaining Polymer Membranes for Fuel Cell Applications
- Zinc-Nickel Oxide Battery
RENEWABLE ENERGY
- Acceleration of Carbon Dioxide Mineralization for Geological Carbon Sequestration
- Clean Production of Hydrogen Gas from Flowing Water
- CO2 As Cushion Gas for Compressed Air Energy Storage
- Conducting Domain Walls in Insulating Oxides
- Field-effect P-N Junctions for Low Cost, High Efficiency Solar Cells and Electronic Devices
- Holey Silicon as an Efficient Thermoelectric Material
- Hot Electron Photovoltaics Using Low Cost Materials and Simple Cell Design
- Improved Amorphous Silicon Solar Cells
- Improving the Efficiency of Nanoscale Photovoltaic Devices
- Low-cost, Efficient, Flexible Solar Cells with 3D Nanopillar Arrays
- Low Cost, High Efficiency Tandem Silicon Solar Cells
- Low Resistance, p-Type Ohmic Contacts for Energy Efficient Devices (Group III-Nitride Semiconductors)
- Metal-Oxo Catalysts for Generating Hydrogen from Water
- Modular Inorganic Nanocomposites
- Molecular Cobalt Pentapyridine Catalyst for Hydrogen Generation
- Nanocrystal Assembly for Tandem Catalysis
- Nanostructured Water Oxidation Catalysts
- Soluble Furan Polymer for Photovoltaics
- Stable Titanium Dioxide Nanoparticles for More Efficient Solar Cells and Environmental Decontamination
- Ternary Compound Nanocrystals for Photovoltaic Devices
- Thinner Film Silicon Solar Cells
- Transparent Conducting Perovskite Oxides
- Tunable Molecular Heterostructures for Optimal Energy Conversion and Storage
- Water Based Process for Fabricating Thermoelectric Materials
