1
Tapesh Yadav, Ming Au, Bijan Miremadi, John Freim, Yuval Avniel, Roger Dirstine, John Alexander, Evan Franke: Materials and products using nanostructured non-stoichiometric substances. NanoEnergy Corporation, Stuart T Langley, Hogan & Hartson, February 5, 2002: US06344271 (187 worldwide citation)

Nanoscale non-stoichiometric materials with unusual properties are disclosed. These materials offer a wide range of novel formulations for applications in catalysis, chemicals and fuels, electronics, electromagnetics, photonics, optics, sensors, electrochemical products, structural products, biomedi ...


2
Tapesh Yadav, Ming Au, Bijan Miremadi, John Freim, Yuval Avniel, Roger Dirstine, John Alexander, Evan Franke: Nanotechnology for biomedical products. NanoProducts Corporation, Stuart T Langley, Hogan & Hartson, June 3, 2003: US06572672 (184 worldwide citation)

Nanostructured non-stoichiometric materials are disclosed. Novel biomedical materials and their applications are discussed. More specifically, the specifications teach the use of nanotechnology and nanostructured materials for developing novel biomedical products.


3
Clint Bickmore, Benjamin Galde, Tapesh Yadav, John Freim: Combustion of emulsions: A method and process for producing fine powders. Nanomaterials Research Corporation, Stuart T Langley, Choate Hall & Stewart Holland & Hart, November 16, 1999: US05984997 (80 worldwide citation)

A process for producing nanoscale powders, and the powders so produced. The process comprises mixing an emulsion comprising all of the elements of the desired powder composition and a combustible fuel, and then combusting that emulsion to produce a powder. Powders with a median particle size of less ...


4
Tapesh Yadav, Ming Au, Bijan Miremadi, John Freim, Yuval Avniel, Roger Dirstine, John Alexander, Evan Franke: Processing and manufacturing methods enabled using non-stoichiometric nanomaterials. NanoProducts Corporation, Stuart T Langley, Hogan & Hartson, March 30, 2004: US06713176 (77 worldwide citation)

Nanostructured non-stoichiometric materials and methods of reducing manufacturing and raw material costs through the use of nanostructured materials are provided. Specifically, use of non-stoichiometric materials of oxide, nitride, carbide, chalcogenides, borides, alloys and other compositions are t ...


5
Tapesh Yadav, Ming Au, Bijan Miremadi, John Freim, Yuval Avniel, Roger Dirstine, John Alexander, Evan Franke: Applications and devices based on nanostructured non-stoichiometric substances. NanoProducts Corporation, Stuart Langley, Hogan & Hartson, August 19, 2003: US06607821 (75 worldwide citation)

Nanostructured non-equilibrium, non-stoichiometric materials and device made using the nanonostructured non-equilibrium non-stoichiometric materials are provided. Applications and methods of implementing such devices and applications are also provided. More specifically, the specifications teach the ...


6
Tapesh Yadav, John Freim, Yuval Avniel: Nanotechnology for electronic and opto-electronic devices. NanoProducts Corporation, Stuart T Langley, Hogan & Hartson, June 10, 2003: US06576355 (10 worldwide citation)

Nanostructured non-stoichiometric materials are provided and electronic materials and their applications are discussed. More specifically, the uses of nanotechnology and nanostructured materials for electronic products.


7
Tapesh Yadav, Ming Au, Bijan Miremadi, John Freim, Yuval Avniel, Roger Dirstine, John Alexander, Evan Franke: Nanotechnology for inks and dopants. NanoProducts, S T L, H & H, August 5, 2003: US06602595 (10 worldwide citation)

Novel inks and dopant materials and their applications are discussed. More specifically, the specifications teach the use of nanotechnology and nanostructured materials for developing novel ink and dopant-based products.


8
Tapesh Yadav, Ming Au, Bijan Miremadi, John Freim, Yuval Avniel, Roger Dirstine, John Alexander, Evan Franke: Nanotechnology for magnetic components. NanoProducts Corporation, Stuart T Langley, Hogan & Hartson, August 5, 2003: US06602543 (3 worldwide citation)

Nanostructured non-stoichiometric materials are disclosed. Novel magnetic materials and their applications are discussed. More specifically, the specifications teach the use of nanotechnology and nanostructured materials for developing novel magnetic devices and products.


9
Tapesh Yadav, Ming Au, Bijan Miremadi, John Freim, Yuval Avniel, Roger Dirstine, John Alexander, Evan Franke: Nanotechnology for inks and dopants. Hogan & Hartson, November 28, 2002: US20020176987-A1

Novel inks and dopant materials and their applications are discussed. More specifically, the specifications teach the use of nanotechnology and nanostructured materials for developing novel ink and dopant-based products.


10
Tapesh Yadav, Ming Au, Bijan Miremadi, John Freim, Yuval Avniel, Roger Dirstine, John Alexander, Evan Franke: Nanotechnology for photonic and optical components. Hogan & Hartson, November 21, 2002: US20020170593-A1

Nanostructured non-stoichiometric materials are disclosed. Novel photonic materials and their applications are discussed. More specifically, the specifications teach the use of nanotechnology and nanostructured materials for developing novel photonic and optical applications.



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