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Low Cost Manufacturing of Solid Oxide Fuel Cell Components Using Laser Reactive Deposition
Society of Vacuum Coaters, 50th Annual Technical Conference Proceedings, April 2007
The Laser Reactive Deposition process converts low cost metal precursors into Solid Oxide Fuel Cells (SOFC) layers; thus eliminating the need to undertake powder synthesis, calcining, ball milling, batch formulation, slurry preparation, tape formation, and binder burnout steps required in conventional SOFC cell fabrication. Read on...
High-Rate Deposition of Compositionally Complex Nanoparticles for Porous and Dense Films Via LRD
Society of Vacuum Coaters, 50th Annual Technical Conference Proceedings, April 2007
Laser Reactive Deposition (LRD™) technology is a disruptive approach to porous and dense film fabrication. The LRD™ process comprises Laser Pyrolysis (LP) for direct conversion of low-cost precursors into submicron or nanoscale particles and uniform, high rate deposition. Read on...
Inorganic-Polymer Nanocomposites for Optical Applications
Multifunctional Nanocomposites 2006 (MN2006), Honolulu, Hawaii, September 2006
The combination of organic and inorganic materials forms unique composites with properties that neither of the two components provides. Such functional materials are considered innovative advanced materials that enable applications in many fields, including optics, electronics, separation membranes, protective coatings, catalysis, sensors, biotechnology, and others. Read on...
Laser Pyrolysis - A Platform Technology to Produce Nanoscale Materials for a Range of Product Apps
NSTI Nanotech 2006, Boston, MA, May 2006
Laser pyrolysis, a gas phase process for the synthesis of nanomaterials, has been pioneered and developed as a viable nanoparticle manufacturing platform by the NanoGram Corporation. It has been successfully employed in producing various nanoscale materials including metals, simple and complex metal oxides, carbides, nitrides, rare- earth doped oxides, multi-elemental glasses among others. Read on...
Innovative Laser-based Process for Development and Manufacturing of Solid Oxide Fuel Cells
The Electrochemical Society, Quebec City, Canada, April 2005
By simplifying the manufacturing process, the Laser Reactive Deposition process achieves low Solid Oxide Fuel Cells stack manufacturing cost at low volumes, simplifies footprint and throughput scale-up, and dramatically compresses materials and components development cycles; thus accelerating commercialization and market growth. Read on...
High-Rate Deposition of Rare-Earth Doped Silicate NanoParticles For Porous and Dense Optical Films
MRS Procedings; Vol 866, March 2005
A novel deposition process developed for manufacturing high-quality rare-earth doped glass films with complex composition, Laser Reactive Deposition compromises photothermal laser pyrolysis using aerosol feedstock coupled with deposition of the resulting nanoparticle product onto Si substrates with or without an underlying glass film. Read on...
NanoGram Technical Papers Archive From Synthesis of Nanoscale Optical Materials using Nanoparticle Manufacturing Technology to Processing Complex and Uniform Nanoparticles for Microelectronic and Photonic Applications, access papers highlighting NanoGram's legacy knowledge in our technical papers archive.
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