Patent application number | Description | Published |
20150221953 | NON-CARBON MIXED-METAL OXIDE SUPPORT FOR ELECTROCATALYSTS - A non-carbon support particle is provided for use in electrocatalyst. The non-carbon support particle consists essentially of titanium dioxide and ruthenium dioxide. The titanium and ruthenium can have a mole ratio ranging from 1:1 to 9:1 in the non-carbon support particle. Also disclosed are methods of preparing the non-carbon support and electrocatalyst taught herein. | 08-06-2015 |
20150221954 | TEMPLATED NON-CARBON METAL OXIDE CATALYST SUPPORT - Non-corrosive, non-carbon metal oxide support particles are formed with pre-shaped, templated vacancies. Electrocatalysts, membrane electrode assemblies and fuel cells can be produced with the templated non-corrosive, non-carbon metal oxide support particles. | 08-06-2015 |
20150221955 | NON-CARBON MIXED-METAL OXIDE ELECTROCATALYSTS - Electrocatalysts having non-corrosive, non-carbon support particles are provided as well as the method of making the electrocatalysts and the non-corrosive, non-carbon support particles. Embodiments of the non-corrosive, non-carbon support particle consists essentially of titanium dioxide and ruthenium dioxide. The electrocatalyst can be used in fuel cells, for example. | 08-06-2015 |
Patent application number | Description | Published |
20130157153 | APPARATUS AND METHOD OF IN SITU CATALYST DEGRADATION DETECTION DURING FUEL CELL OPERATION - Disclosed herein are catalyst degradation detection assemblies and methods of catalyst degradation detection that can be performed in-situ. One embodiment of an in-situ fuel cell catalyst degradation detection assembly comprises a humidified hydrogen supply configured to supply humidified hydrogen to an anode of a fuel cell, a humidified nitrogen supply configured to supply humidified nitrogen to a cathode of the fuel cell, a collection cell containing a liquid, the collection cell configured to receive either cathode exhaust from the fuel cell through a cathode exhaust line or anode exhaust from the fuel cell through an anode exhaust line and means for detecting a gas. | 06-20-2013 |
20130158757 | SYSTEM AND METHOD OF IN-SITU DIAGNOSIS OF FUEL CELL HEALTH DURING VEHICLE OPERATION - Disclosed herein are systems and methods of diagnosing in situ the health of a fuel cell stack while it is in operation in a vehicle. One such system of diagnosing in situ the health of a fuel cell stack while it is in operation in a vehicle comprises at least one gas sensor configured to detect a gas in exhaust from the fuel cell stack and a control unit configured to receive data from the gas sensor. The control unit has baseline data particular to a catalyst of the fuel cell stack and is programmed to determine information from the baseline data and the data from the gas sensor, the information providing a condition of the fuel cell stack. A display unit is configured to display an indication of the condition. | 06-20-2013 |
20140001176 | APPARATUS FOR RAPID SYNTHESIS OF FUEL CELL CATALYST USING CONTROLLED MICROWAVE HEATING | 01-02-2014 |
20140004440 | ULTRALOW LOADING FUEL CELL CATALYST | 01-02-2014 |
20140011665 | Rapid Synthesis of Fuel Cell Catalyst Using Controlled Microwave Heating - Methods for the rapid synthesis of catalyst are provided, as well as catalyst formed from such methods. One method of the rapid synthesis of catalyst comprises forming a homogenous solution comprising a precious metal precursor and a catalyst substrate, reducing the precious metal precursor to precious metal nanoparticles, and depositing the precious metal nanoparticles onto the catalyst substrate to form catalyst particles. The reducing and depositing steps comprise controlling a rate of increase in temperature of the solution with microwave irradiation until the solution is a predetermined temperature and maintaining the solution at the predetermined temperature with microwave irradiation. The method further comprises detecting completion of the reduction and deposition and ceasing microwave irradiation upon detection. | 01-09-2014 |