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Electrostatic Coating with Heavy Metal Nanoparticles by Intrinsic Particle to Surface Interaction

详细技术说明

Title: Electrostatic Coating with Heavy Metal Nanoparticles by Intrinsic Particle to Surface Interaction Invention: The technology is a novel electroless deposition technique to form a thin layer of heavy metal on non-traditional substrates such as glass, plastic, and thermal silica. Background: Electroless plating is prominent in engineering to create a homogeneous and uniform coating on complex shaped items to conduct electricity. Coating non-metallic products is more difficult, but substrates such as plastic have the advantage of higher corrosion resistance and lower weight. In addition, electroless plating can be used for aesthetic purposes such as chrome plating on vehicles.  Applications: Aviation and aerospaceAutomotiveChemical processing Advantages:Can deposit the following heavy metals: gold, platinum, iridium, osmium, rhenium, tungsten, tantalum, and halfiumCan deposit on thermal silica, glass, metals, metal oxides, and plasticsDoes not rely on an electric current and uses the charged surface of the nanoparticles and alteration of the substrate's surface chemistryConsists of a uniform, homogeneous layer of metal (~3nm-1500nm)Electroless plated coatings are less porous and protect against corrosion Licensing Manager:Bob SleeperRobertS@tla.arizona.edu(520) 626-4604

*Abstract

None

*Principal Investigation

Name: Lance Hubbard, Graduate Assistant

Department: Chemical & Environmental Engineering

Name: Anthony Muscat, Dept Chair/Professor

Department: Chemical & Environmental Engineering

国家/地区

美国