Patent application number | Description | Published |
20100184595 | TRANSITION METAL COMPLEX ANION-BASED HYDROGEN STORAGE MATERIAL SYSTEM - An exemplary embodiment and associated method of use discloses a hydrogen storage system that liberates hydrogen and includes a combination of at least one complex hydride containing a cation and a complex hydride anion based on boron, aluminum or nitrogen, together with an approximately stoichiometric or chemically equivalent amount of at least one other complex hydride containing a cation and a complex hydride anion based on a transition metal. | 07-22-2010 |
20100273094 | METHOD OF COATING A SURFACE OF A FUEL CELL PLATE - A method of coating a surface of a fuel cell plate is disclosed herein, and involves forming a sol gel mixture by mixing a weak acid and a composition including at least two metal oxide precursors. One of the metal oxide precursors is configured to be hydrolyzed by the weak acid to form a mixed metal oxide framework with an other of the metal oxide precursors having at least one organic functional group that is not hydrolyzed by the weak acid. The mixture is applied to the surface, and is condensed by exposure to air at least one predetermined temperature and for a predetermined time. The sol gel mixture is immersed in water at a predetermined temperature and for a predetermined time to form a porous, hydrophilic, and conductive film on the surface. | 10-28-2010 |
20100273095 | METHOD OF COATING A SURFACE OF A FUEL CELL PLATE - A method of coating a surface of a fuel cell plate is disclosed herein. The method involves forming a sol gel mixture including a metal oxide modified with at least one functional group, where the at least one functional group is configured to improve adhesion; and adding carbon modified with a hydrophilic functional group to the mixture, thereby forming a suspension. The suspension is applied to the surface of the fuel cell plate, and is activated to form a porous, hydrophilic, and conductive film on the surface of the fuel cell plate. | 10-28-2010 |
20110111954 | HYDROGEN STORAGE MATERIALS - A hydrogen storage material has been developed that comprises a metal hydride material embedded into a carbon microstructure that generally exhibits a greater bulk thermal conductivity than the surrounding bulk metal hydride material. | 05-12-2011 |
20130118913 | ELECTROCHEMICAL PROCESS AND DEVICE FOR HYDROGEN GENERATION AND STORAGE - Both the reaction of hydride-forming compositions with hydrogen to form hydrides, and the decomposition of such hydrides to release hydrogen may be promoted electrochemically. These reactions may be conducted reversibly, and if performed in a suitable cell, the cell will serve as a hydrogen storage and release device. | 05-16-2013 |
20130272953 | METHOD FOR MANUFACTURING INDIUM TIN OXIDE NANOWIRES - A method for manufacturing indium tin oxide nanowires by preparing a solution that includes an indium-containing species, a tin-containing species and a polymeric material, wherein the solution has a molar ratio of tin to indium in a range from about 5 to about 15 percent, electrospinning fibers using the solution, and heating the fibers to a calcination temperature and maintaining the fibers at the calcination temperature for a predetermined calcination time. | 10-17-2013 |
20140076743 | METAL HYDRIDES WITH EMBEDDED METAL STRUCTURES FOR HYDROGEN STORAGE - One illustrative embodiment includes materials and devices including an integrated hydrogen storage structure including a plurality of continuously connected thermally conductive elongated members, the elongated members including continuously connected openings between the elongated members; and, a metal hydride material contacting the elongated members and disposed within the connected openings and surrounding the elongated members. | 03-20-2014 |
20140217992 | SEPARATORS FOR LITHIUM-SULFUR BATTERIES - This invention, in some variations, provides a separator for a lithium-sulfur battery, comprising a porous substrate that is permeable to lithium ions; and a lithium-ion-conducting metal oxide layer on the substrate, wherein the metal oxide layer includes deposits of sulfur that are intentionally introduced prior to battery operation. The deposits of sulfur may be derived from treatment of the metal oxide layer with one or more sulfur-containing precursors (e.g., lithium polysulfides) prior to operation of the lithium-sulfur battery. Other variations provide a method of charging a lithium-sulfur battery that includes the disclosed separator, the charging being accomplished by continuously applying a substantially constant voltage to the lithium-sulfur battery until the battery charging current is at or below a selected current. | 08-07-2014 |
20140262813 | ELECTROCHEMICAL PROCESS AND DEVICE FOR HYDROGEN GENERATION AND STORAGE - Both the reaction of hydride-forming compositions with hydrogen to form hydrides, and the decomposition of such hydrides to release hydrogen may be promoted electrochemically. These reactions may be conducted reversibly, and if performed in a suitable cell, the cell will serve as a hydrogen storage and release device. | 09-18-2014 |