1
Kenneth E Goodson, Chuan Hua Chen, David E Huber, Linan Jiang, Thomas W Kenny, Jae Mo Koo, Daniel J Laser, James C Mikkelsen, Juan G Santiago, Evelyn Ning Yi Wang, Shulin Zeng, Lian Zhang: Electroosmotic microchannel cooling system. The Board of Trustees of the Leland Stanford Junior University, Womble Carlyle Sandridge & Rice PLLC, September 13, 2005: US06942018 (101 worldwide citation)

Apparatus and methods according to the present invention preferably utilize electroosmotic pumps that are capable of generating high pressure and flow without moving mechanical parts and the associated generation of unacceptable electrical and acoustic noise, as well as the associated reduction in r ...


2
Kenneth E Goodson, Chuan Hua Chen, David E Huber, Linan Jiang, Thomas W Kenny, Jae Mo Koo, Daniel J Laser, James C Mikkelsen, Juan G Santiago, Evelyn Ning Yi Wang, Shulin Zeng, Lian Zhang: Closed-loop microchannel cooling system. The Board of Trustees of the Leland Stanford Junior University, Womble Carlyle Sandridge & Rice PLLC, February 26, 2008: US07334630 (50 worldwide citation)

Apparatus and methods according to the present invention utilize micropumps that are capable of generating high pressure and flow without moving mechanical parts and the associated generation of unacceptable electrical and acoustic noise, as well as the associated reduction in reliability. These mic ...


3
Kenneth E Goodson, Chuan Hua Chen, David E Huber, Linan Jiang, Thomas W Kenny, Jae Mo Koo, Daniel J Laser, James C Mikkelsen, Juan G Santiago, Evelyn Ning Yi Wang, Shulin Zeng, Lian Zhang: Electroosmotic microchannel cooling system. The Board of Trustees of the Leland Stanford Junior University, Womble Carlyle Sandridge & Rice PLLC, January 31, 2006: US06991024 (29 worldwide citation)

Apparatus and methods according to the present invention preferably utilize electroosmotic pumps that are capable of generating high pressure and flow without moving mechanical parts and the associated generation of unacceptable electrical and acoustic noise, as well as the associated reduction in r ...


4
Kenneth E Goodson, Chuan Hua Chen, David E Huber, Linan Jiang, Thomas W Kenny, Jae Mo Koo, Daniel J Laser, James C Mikkelsen, Juan G Santiago, Evelyn Ning Yi Wang, Shulin Zeng, Lian Zhang: Electroosmotic microchannel cooling system. Board of Trustees of the Leland Stanford Junior University, Womble Carlyle Sandridge & Rice PLLC, March 6, 2007: US07185697 (29 worldwide citation)

Apparatus and methods according to the present invention preferably utilize electroosmotic pumps that are capable of generating high pressure and flow without moving mechanical parts and the associated generation of unacceptable electrical and acoustic noise, as well as the associated reduction in r ...


5
Kenneth E Goodson, Chuan Hua Chen, David E Huber, Linan Jiang, Thomas W Kenny, Jae Mo Koo, Daniel J Laser, James C Mikkelsen, Juan G Santiago, Evelyn Ning Yi Wang, Shulin Zeng, Lian Zhang: Electroosmotic microchannel cooling system. The Board of Trustees of the Leland Stanford Junior Universty, Womble Carlyle Sandridge & Rice PLLC, November 7, 2006: US07131486 (28 worldwide citation)

Apparatus and methods according to the present invention preferably utilize electroosmotic pumps that are capable of generating high pressure and flow without moving mechanical parts and the associated generation of unacceptable electrical and acoustic noise, as well as the associated reduction in r ...


6
Xuejiao Hu, Linan Jiang, Kenneth E Goodson: Composite thermal interface material including particles and nanofibers. The Board of Trustees of the Leland Stanford Junior University, Lumen Patent Firm, March 17, 2009: US07504453 (6 worldwide citation)

A thermal interface material (TIM) including a mechanically compliant matrix material which contains thermally conductive particles and thermally conductive nanofibers is provided. Such a TIM provides enhanced thermal conductivity without excessive viscosity when the nanofiber volume concentration i ...


7
Goodson Kenneth E, Huber David E, Linan Jiang, Kenny Thomas W, Koo Jae Mo, Mikkelsen James C, Santiago Juan G, Wang Evelyn Ning Yi, Zeng Shulin, Zhang Lian, Chen Chuan Hua, Laser Daniel J: Electroosmotic pump apparatus. Univ Leland Stanford Junior, July 25, 2007: EP1811257-A1 (2 worldwide citation)

An electroosmotic pump apparatus (300) that pumps a fluid having a liquid phase upon application of a voltage comprising: a fluid chamber (312) having a fluid inlet (322) and a fluid outlet (324); an anode (314) disposed within an anode chamber portion (312b); a cathode (316) disposed within a catho ...


8
Kenneth E Goodson, Chuan Hua Chen, David E Huber, Linan Jiang, Thomas W Kenny, Jae Mo Koo, Daniel J Laser, James C Mikkelsen, Juan G Santiago, Evelyn Ning Yi Wang, Shulin Zeng, Lian Zhang: Electroosmotic microchannel cooling system. Pillsbury Winthrop, April 3, 2003: US20030062149-A1 (2 worldwide citation)

Apparatus and methods according to the present invention preferably utilize electroosmotic pumps that are capable of generating high pressure and flow without moving mechanical parts and the associated generation of unacceptable electrical and acoustic noise, as well as the associated reduction in r ...


9
Kenneth E Goodson, Chuan Hua Chen, David E Huber, Linan Jiang, Thomas W Kenny, Jae Mo Koo, Daniel J Laser, James C Mikkelsen, Juan G Santiago, Evely Ning Yi Wang, Shulin Zeng, Lian Zhang: Electroosmotic microchannel cooling system. The Board of Trustees of the Leland Stanford Junior University, John J Timar, Womble Carlyle Sandridge & Rice, May 13, 2004: US20040089442-A1

Apparatus and methods according to the present invention preferably utilize electroosmotic pumps that are capable of generating high pressure and flow without moving mechanical parts and the associated generation of unacceptable electrical and acoustic noise, as well as the associated reduction in r ...


10
Kenneth E Goodson, Chuan Hua Chen, David E Huber, Linan Jiang, Thomas W Kenny, Jae Mo Koo, Daniel J Laser, James C Mikkelsen, Juan G Santiago, Evelyn Ning Yi Wang, Shulin Zeng, Lian Zhang: Electroosmotic microchannel cooling system. The Board of Trustees of the Leland Stanford Junior University, John J Timar, Womble Carlyle Sandridge & Rice, September 4, 2003: US20030164231-A1

Apparatus and methods according to the present invention preferably utilize electroosmotic pumps that are capable of generating high pressure and flow without moving mechanical parts and the associated generation of unacceptable electrical and acoustic noise, as well as the associated reduction in r ...



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