David I Margolese

7176245, Feb 13, 2007

Apr 30, 2003

10/426441

Galen D. Stucky - Goleta CA, US
Bradley F. Chmelka - Goleta CA, US
Dongyuan Zhao - Shanghai, CN
Nick Melosh - Tucson AZ, US
Qisheng Huo - Williamsville NY, US
Jianglin Feng - Charlottesville VA, US
Peidong Yang - Santa Barbara CA, US
David Pine - Santa Barbara CA, US
David Margolese - Montecito CA, US
Wayne Lukens, Jr. - Summerland CA, US
Glenn H. Fredrickson - Santa Barbara CA, US
Patrick Schmidt-Winkel - Bad Gams, AT

The Regents of the University of California - Oakland CA

B01J 13/18
C01B 33/152
C01B 33/155

516111, 210660, 177924, 428402, 501 12, 523209

Mesoscopically ordered, hydrothermally stable metal oxide-block copolymer composite or mesoporous materials are described herein that are formed by using amphiphilic block polymers which act as structure directing agents for the metal oxide in a self-assembling system.

7763665, Jul 27, 2010

Dec 5, 2006

11/634744

Galen D. Stucky - Goleta CA, US
Bradley F. Chmelka - Golem CA, US
Dongyuan Zhao - Shanghai, CN
Nick Melosh - Tucson AZ, US
Qisheng Huo - East Amherst NY, US
Jianglin Feng - Charlottesville VA, US
Peidong Yang - Santa Barbara CA, US
David Pine - Santa Barbara CA, US
David Margolese - Montecito CA, US
Wayne Lukens, Jr. - Summerland CA, US
Glenn H. Fredrickson - Santa Barbara CA, US
Patrick Schmidt-Winkel - Ruschlikon, CH

The Regents of the University of California - Oakland CA

C01B 33/152
C08K 9/00

516111, 428402, 501 12, 501 53, 523209

Mesoscopically ordered, hydrothermally stable metal oxide-block copolymer composite or mesoporous materials are described herein that are formed by using amphiphilic block polymers which act as structure directing agents for the metal oxide in a self-assembling system.

20090303660, Dec 10, 2009

Jun 10, 2009

12/482056

Vinod M.P. NAIR - Concord CA, US
David MARGOLESE - Monrovia CA, US
Samir J. ANZ - La Crescenta CA, US
Shiho WANG - Sunnyvale CA, US

H01G 9/00
B05D 5/12

361502, 361500, 427 77, 429 44, 429209

High surface area electrodes formed using sol-gel derived monoliths as electrode substrates or electrode templates, and methods for making high surface area electrodes are described. The high surface area electrodes may have tunable pore sizes and well-controlled pore size distributions. The high surface area electrodes may be used as electrodes in a variety of energy storage devices and systems such as capacitors, electric double layer capacitors, batteries, and fuel cells.

6592764, Jul 15, 2003

Dec 11, 2000

09/554259

Galen D. Stucky - Goleta CA
Bradley F. Chmelka - Goleta CA
Dongyuan Zhao - Isla Vista CA
Nick Melosh - Tucson AZ
Qisheng Huo - Williamsville NY
Jianglin Feng - Charlottesville VA
Peidong Yang - Santa Barbara CA
David Pine - Santa Barbara CA
David Margolese - Montecito CA
Wayne Lukens, Jr. - Summerland CA
Glenn H. Fredrickson - Santa Barbara CA

The Regents of the University of California - Oakland CA

R01D 1500

210660, 428391, 428404, 435803, 501 12, 502407, 50252724, 516100, 516111, 530417

Mesoscopically ordered, hydrothermally stable metal oxide-block copolymer composite or mesoporous materials are described herein that are formed by using amphiphilic block copolymers which act as structure directing agents for the metal oxide in a self-assembling system.

20150140476, May 21, 2015

Nov 20, 2013

14/085723

- Mountain View CA, US
David MARGOLESE - Monrovia CA, US
Samir J. ANZ - La Crescenta CA, US
Shiho WANG - Mountain View CA, US

Nanotune Technologies Corp. - Mountain View CA

H01G 11/36
H01M 4/86
H01M 4/88
H01M 4/66

429532, 429245, 427 58, 427123, 4271263, 361502

High surface area electrodes formed using sol-gel derived monoliths as electrode substrates or electrode templates, and methods for making high surface area electrodes are described. The high surface area electrodes may have tunable pore sizes and well-controlled pore size distributions. The high surface area electrodes may be used as electrodes in a variety of energy storage devices and systems such as capacitors, electric double layer capacitors, batteries, and fuel cells.