1
Ravi Laxman
John N Gregg, Scott L Battle, Jeffrey I Banton, Donn K Naito, Ravi Laxman: Method and apparatus to help promote contact of gas with vaporized material. Advanced Technology Materials, Vincent K Gustafson, Intellectual Property Technology Law, Maggie Chappuis, November 27, 2007: US07300038 (36 worldwide citation)

Structure helps support material in a container with an increased exposed surface area to help promote contact of a gas with vaporized material. For at least one disclosed embodiment, the structure may help support material for vaporization in the same form as when the material is placed at the stru ...


2
Ravi Laxman
John N Gregg, Scott L Battle, Jeffrey I Banton, Donn K Naito, Ravi K Laxman: Method and apparatus to help promote contact of gas with vaporized material. Advanced Technology Materials, Vincent K Gustafson, Intellectual Property Technology Law, Maggie Chappuis, July 7, 2009: US07556244 (13 worldwide citation)

Vaporizable material is supported within a vessel to promote contact of an introduced gas with the vaporizable material, and produce a product gas including vaporized material. A heating element supplies heat to a wall of the vessel to heat vaporizable material disposed therein. The vessel may compr ...


3
Ravi Laxman
John N Gregg, Scott L Battle, Jeffrey I Banton, Donn K Naito, Ravi K Laxman: Method and apparatus to help promote contact of gas with vaporized material. Advanced Technology Materials, Vincent K Gustafson, Intellectual Property Technology Law, Maggie Chappuis, February 10, 2009: US07487956 (11 worldwide citation)

Vaporizable material is supported within a vessel to promote contact of an introduced gas with the vaporizable material, and produce a product gas including vaporized material. A heating element supplies heat to a wall of the vessel to heat vaporizable material disposed therein. The vessel may inclu ...


4
Ravi Laxman
John N Gregg, Scott L Battle, Jeffrey I Banton, Donn K Naito, Ravi Laxman: Method and apparatus to help promote contact of gas with vaporized material. Advanced Technology Materials, Vincent K Gustafson, Intellectual Property Technology Law, Maggie Chappuis, November 9, 2010: US07828274 (8 worldwide citation)

Vaporizable material is supported within a vessel to promote contact of an introduced gas with the vaporizable material, and produce a product gas including vaporized material. A heating element supplies heat to a wall of the vessel to heat vaporizable material disposed therein. The vessel may compr ...


5
George R Brandes: Light emission device and method utilizing multiple emitters and multiple phosphors. Cree, Vincent K Gustafson, Intellectual Property Technology Law, Julio Garceran, July 21, 2009: US07564180 (182 worldwide citation)

A light emission device, including at least two LED dies having differing spectral output from one another; and phosphor material including one or more phosphors, arranged to receive spectral output from at least one of the LED dies and to responsively emit a phosphor output, as a component of a spe ...


6
Jeffrey S Flynn, George R Brandes: Doped group III-V nitride materials, and microelectronic devices and device precursor structures comprising same. Cree, Vincent K Gustafson, Hultquist IP, April 5, 2011: US07919791 (164 worldwide citation)

A Group III-V nitride microelectronic device structure including a delta doped layer and/or a doped superlattice. A delta doping method is described, including the steps of: depositing semiconductor material on a substrate by a first epitaxial film growth process; terminating the deposition of semic ...


7
Eugene Dantsker, Christoph D Karp, Marci Pezzuto, Steven E Hobbs, Paren P Patel: Flow control in multi-stream microfluidic devices. Nanostream, Vincent K Gustafson, Michael F Labbee, December 31, 2002: US06499499 (161 worldwide citation)

Microfluidic devices for splitting an established fluidic flow through a microfluidic channel among multiple downstream microfluidic channels include a plurality of elevated flow resistance regions to promote precise and predictable splitting. Each elevated resistance region imparts a flow resistanc ...


8
Klaus D Hoog, Nims P Knobloch Jr: Device and method for interactive programming of a thermostat. Smartway Solutions, Vincent K Gustafson, Intellectual Property Technology Law, December 5, 2006: US07146253 (103 worldwide citation)

An audible interactive and programmable heating and cooling digital thermostat providing voice setup instructions for easy and precise temperature management during four different time periods in a twenty-four hour day and the option of distinct weekday and weekend programming temperature setpoints. ...


9
Stephen D O&apos Connor, Christoph D Karp, Eugene Dantsker, Marci Pezzuto: Modular microfluidic systems. Nanostream, Vincent K Gustafson, Michael F Labbee, December 7, 2004: US06827095 (81 worldwide citation)

A modular microfluidic system includes a plurality of discrete microfluidic modules each capable of performing at least one operation and at least one microfluidic coupling device for fluidically coupling the modules to perform a sequence of operations. The microfluidic modules and coupling devices ...


10
Stephen D O&apos Connor, Christoph D Karp, Marci Pezzuto, Paren P Patel, Steven E Hobbs, Eugene Dantsker: Microfluidic synthesis devices and methods. Nanostream, Vincent K Gustafson, Michael F Labbee, May 4, 2004: US06729352 (70 worldwide citation)

A microfluidic reactor for performing chemical and biological synthesis reactions, including chemical and biological syntheses of organic, polymer, inorganic, oligonucleotide, peptide, protein, bacteria, and enzymatic products is provided. Two fluids are input into the device, mixed in a mixing regi ...