1
Tapesh Yadav, Clayton Kostelecky, Evan Franke, Bijan Miremadi, Ming Au: Nanostructured fillers and carriers. Nanomaterials Research Corporation, Sam Pasternack Esq, Stuart T Langley Esq, May 8, 2001: US06228904 (229 worldwide citation)

A nanocomposite structure comprising a nanostructured filler or carrier intimately mixed with a matrix, and methods of making such a structure. The nanostructured filler has a domain size sufficiently small to alter an electrical, magnetic, optical, electrochemical, chemical, thermal, biomedical, or ...


2
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 ...


3
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.


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: Nanotechnology for electrochemical and energy devices. NanoProducts Corporation, Stuart T Langley, Hogan & Hartson, May 27, 2003: US06569518 (75 worldwide citation)

Novel non-ionics and energy device materials made from non-stoichiometric nanomaterials and their applications are discussed. More specifically, the specifications teach the use of nanotechnology and nanostructured materials for developing novel energy related products.


6
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 ...


7
Yan Wah Chia, Tsien Ming Au: RF identification transponder. National University of Singapore, Klarquist Sparkman Campbell Leigh & Whinston, August 31, 1999: US05945938 (26 worldwide citation)

An RF identification transponder comprises a substrate layer, and an array of M*N antenna elements formed on the substrate layer, where M and N are integers. The antenna elements have a common predetermined resonant frequency f.sub.r. The resonant frequency of the transponder's antenna element array ...


8
Tapesh Yadav, Clayton Kostelecky, Evan Franke, Bijan Miremadi, Ming Au, Anthony Vigliotti: Nanomaterials and magnetic media with coated nanostructured fillers and carriers. NanoProducts Corporation, Stuart T Langley, Hogan & Hartson, May 18, 2004: US06737463 (17 worldwide citation)

Coated nanoparticles are used for composites and media. Exemplary applications include magnetic applications involving a solid matrix material and a nanostructured magnetic material.


9
Tapesh Yadav, Ming Au, Evan Franke: Nanotechnology for chemical radiation, and biotechnology sensors. NanoProducts Corporation, Stuart T Langley, Hogan & Hartson, May 27, 2003: US06569490 (11 worldwide citation)

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


10
Ming Au: Advanced aluminum alloys for hydrogen storage. Quantum Fuel Systems Technologies Worldwide, Morrison & Foerster, April 27, 2004: US06726892 (10 worldwide citation)

Various aspects of the present invention provides a nanocrystalline powder suitable for storing hydrogen and a method of producing such a powder. One embodiment provides a nanocrystalline powder containing crystals of an aluminum alloy selected from the group consisting of NaAl



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