Orange, California
United States
36
2025-06-05
The entities that hold a legal rights for patent applications filed by inventor Browne Ian:
Ian Browne from Orange, US has applied for patents for these inventions. The list has both pending applications and granted patents:
Method And System For Key Predictors And Machine Learning For Configuring Cell Performance
#2 | 2025-05-01METHOD AND SYSTEM FOR SILICON DOMINANT LITHIUM-ION CELLS WITH CONTROLLED LITHIATION OF SILICON
#3 | 2025-03-13High Speed Formation Of Cells For Configuring Anisotropic Expansion Of Silicon-Dominant Anodes
#4 | 2025-02-13SACRIFICIAL SALTS IN LI-RICH, DEFECT ANTI-FLUORITE COMPOUNDS IN CATHODES FOR PRELITHIATION IN LITHIUM ION BATTERIES
#5 | 2025-01-16Anisotropic Expansion of Silicon-Dominant Anodes
#6 | 2024-06-20CONTROL OF THERMAL TRANSFER DURING ELECTRODE PYROLYSIS BASED PROCESSING
#7 | 2024-05-09Method And System For Silicon-Dominant Lithium-Ion Cells With Controlled Utilization of Silicon
#8 | 2023-11-09SILICON-DOMINANT ELECTRODES FOR ENERGY STORAGE USING WET OXIDIZED SILICON BY ACID
#9 | 2023-01-05CONFIGURING ANISOTROPIC EXPANSION OF SILICON-DOMINANT ANODES USING PARTICLE SIZE
#10 | 2022-09-08Method and system for key predictors and machine learning for configuring cell performance
#11 | 2022-09-08Method and system for key predictors and machine learning for configuring cell performance
#12 | 2022-08-18HEAT TREATMENT OF WHOLE CELL STRUCTURES
#13 | 2022-04-12Method and system for key predictors and machine learning for configuring cell performance
#14 | 2022-03-22Method and system for key predictors and machine learning for configuring cell performance
#15 | 2022-02-03Use of Silicon With Impurities In Silicon-Dominant Anode Cells
#16 | 2021-09-16CARBON ADDITIVES FOR DIRECT COATING OF SILICON-DOMINANT ANODES
#17 | 2021-07-15Silicon-based energy storage devices with carboxylic ether, carboxylic acid based salt, or acrylate electrolyte containing electrolyte additives
#18 | 2021-05-13Method and system for a battery electrode having a solvent level to facilitate peeling
#19 | 2021-05-13Configuring anisotropic expansion of silicon-dominant anodes using particle size
#20 | 2021-05-13High Speed Formation Of Cells For Configuring Anisotropic Expansion Of Silicon-Dominant Anodes
#21 | 2021-05-13Catalysts and methods for lowering electrode pyrolysis temperature
#22 | 2021-05-13Sacrificial salts in Li-rich, defect anti-fluorite compounds in cathodes for prelithiation in lithium ion batteries
#23 | 2021-05-13CARBON ADDITIVES FOR DIRECT COATING OF SILICON-DOMINANT ANODES
#24 | 2021-05-13Use of silicon with impurities in silicon-dominant anode cells
#25 | 2021-05-13Control of furnace atmosphere for improving capacity retention of silicon-dominant anode cells
#26 | 2021-05-13CONTROL OF THERMAL TRANSFER DURING ELECTRODE PYROLYSIS BASED PROCESSING
#27 | 2021-05-13Heat treatment of whole cell structures
#28 | 2021-05-06Anisotropic expansion of silicon-dominant anodes
#29 | 2021-05-06Anisotropic expansion of silicon-dominant anodes
#30 | 2021-05-06Anisotropic expansion of silicon-dominant anodes
#31 | 2021-04-08Method and system for silicon-dominant lithium-ion cells with controlled utilization of silicon
#32 | 2021-04-01Method and system for silicon dominant lithium-ion cells with controlled lithiation of silicon
#33 | 2021-02-25Composition and method for lamination of silicon dominant electrodes
#34 | 2020-11-17Method and system for a battery electrode having a solvent level to facilitate peeling
#35 | 2020-09-10CONTROL OF FURNACE ATMOSPHERE FOR IMPROVING CAPACITY RETENTION OF SILICON-DOMINANT ANODE CELLS
#36 | 2019-06-20Silicon-based energy storage devices with carboxylic ether, carboxylic acid based salt, or acrylate electrolyte containing electrolyte additives
2538147 ⎘