1
Qinghua Yin, Xiwang Qi, Maximilian A Biberger: Method of forming a catalyst with inhibited mobility of nano-active material. SDCmaterials, Morrison & Foerster, October 15, 2013: US08557727 (39 worldwide citation)

A method of forming a catalyst, comprising: providing a plurality of support particles and a plurality of mobility-inhibiting particles, wherein each support particle in the plurality of support particles is bonded with its own catalytic particle; and bonding the plurality of mobility-inhibiting par ...


2
Qinghua Yin, Xiwang Qi, Maximilian A Biberger, Jayashir Sarkar: Coated substrates for use in catalysis and catalytic converters and methods of coating substrates with washcoat compositions. SDCmaterials, Morrison & Foerster, March 25, 2014: US08679433 (33 worldwide citation)

Disclosed are, inter alia, methods of forming coated substrates for use in catalytic converters, as well as washcoat compositions and methods suitable for using in preparation of the coated substrates, and the coated substrates formed thereby. The catalytic material is prepared by a plasma-based met ...


3
Qinghua Yin, Xiwang Qi, Eliseo Ruiz: Pinning and affixing nano-active material. SDCmaterials, Morrison & Foerster, February 18, 2014: US08652992 (30 worldwide citation)

A nanoparticle comprises a nano-active material and a nano-support. In some embodiments, the nano-active material is platinum and the nano-support is alumina. Pinning and affixing the nano-active material to the nano-support is achieved by using a high temperature condensation technology. In some em ...


4
Qinghua Yin, Xiwang Qi, Maximilian A Biberger: Advanced catalysts for automotive applications. SDCmaterials, Morrison & Foerster, September 8, 2015: US09126191 (22 worldwide citation)

Embodiments of present inventions are directed to an advanced catalyst. The advanced catalyst includes a honeycomb structure with an at least one nano-particle on the honeycomb structure. The advanced catalyst used in diesel engines is a two-way catalyst. The advanced catalyst used in gas engines is ...


5
Maximilian A Biberger, Stephen Edward Lehman Jr, Robert Matthew Kevwitch, Qinghua Yin, Jesudos J Kingsley: Method and system for forming plug and play metal catalysts. SDCmaterials, Morrison & Foerster, August 13, 2013: US08507402 (22 worldwide citation)

A metal catalyst is formed by vaporizing a quantity of metal and a quantity of carrier forming a vapor cloud. The vapor cloud is quenched forming precipitate nanoparticles comprising a portion of metal and a portion of carrier. The nanoparticles are impregnated onto supports. The supports are able t ...


6
Qinghua Yin, Xiwang Qi, Maximilian A Biberger, David Leamon: Fracture toughness of glass. SDCmaterials, Morrison & Foerster, January 13, 2015: US08932514 (21 worldwide citation)

A method of making glass is provided. The method comprises preparing a dispersion of a nano-material. A slurry of a glass matrix material is prepared. The nano-dispersion is mixed with the matrix slurry to form a nano-dispersion/slurry mixture. The nano-dispersion/slurry mixture is dried. The nano-d ...


7
Qinghua Yin, Xiwang Qi, Maximilian A Biberger, David Leamon: Fracture toughness of ceramics. SDCmaterials, Morrison & Foerster, March 31, 2015: US08992820 (21 worldwide citation)

A method of making ceramics is provided. The method comprises preparing a dispersion of a nano-material. A slurry of a ceramic matrix material is prepared. The nano-dispersion is mixed with the matrix slurry to form a nano-dispersion/slurry mixture. The nano-dispersion/slurry mixture is dried. The n ...


8
Maximilian A Biberger, Stephen Edward Lehman Jr, Robert Matthew Kevwitch, Qinghua Yin, Jesudos J Kingsley: Method and system for forming plug and play metal compound catalysts. SDCmaterials, Morrison & Foerster, November 5, 2013: US08575059 (21 worldwide citation)

A metal compound catalyst is formed by vaporizing a quantity of catalyst material and a quantity of carrier thereby forming a vapor cloud, exposing the vapor cloud to a co-reactant and quenching the vapor cloud. The nanoparticles are impregnated onto supports. The supports are able to be used in exi ...


9
Maximilian A Biberger, Stephen Edward Lehman Jr, Robert Matthew Kevwitch, Qinghua Yin: Method and system for forming plug and play oxide catalysts. SDCmaterials, Morrison & Foerster, July 9, 2013: US08481449 (21 worldwide citation)

An oxide catalyst is formed by vaporizing a quantity of at least one precursor material or catalyst material thereby forming a vapor cloud. The vapor cloud is quenches forming precipitate nanoparticles. The nanoparticles are impregnated onto supports. The supports are able to be used in existing het ...


10
Maximilian A Biberger, Stephen Edward Lehman Jr, Robert Matthew Kevwitch, Qinghua Yin, Jesudos J Kingsley: Method and system for forming plug and play metal catalysts. SDCmaterials, Morrison & Foerster, August 13, 2013: US08507401 (21 worldwide citation)

A metal catalyst is formed by vaporizing a quantity of metal and a quantity of carrier forming a vapor cloud. The vapor cloud is quenched forming precipitate nanoparticles comprising a portion of metal and a portion of carrier. The nanoparticles are impregnated onto supports. The supports are able t ...