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
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 ...


7
Hidetaka Matsuuchi, Tomoyuki Hirose, Ryuichi Iwasaki, Masaaki Mike, Shigeru Masuda, Hirofumi Hayashi, Toru Tanibata, Joongsoo Kim, Sang Hun Lee, Jae Mo Koo, Orion Weihe, Andrew Way: using the generating system, generating system and method for generating high concentration NO, High concentration NO. Saian Corporation, Rahman, April 23, 2013: US08425852 (1 worldwide citation)

A high concentration NO2 gas generating system including a circulating path configured by connecting a chamber, a plasma generator, and a circulating means, wherein NO2 is generated by circulating a gas mixture including nitrogen and oxygen in the circulating path is provided. The high concentration ...


8
Hidetaka Matsuuchi, Tomoyuki Hirose, Ryuichi Iwasaki, Masaaki Mike, Shigeru Masuda, Hirofumi Hayashi, Toru Tanibata, Joongsoo Kim, Sang Hun Lee, Jae Mo Koo, Orion Weihe, Andrew Way: using the generating system, generating system and method for generating high concentration NO, High concentration NO. Noxilizer, Rahman, November 12, 2013: US08580086 (1 worldwide citation)

A high concentration NO2 gas generating system including a circulating path configured by connecting a chamber, a plasma generator, and a circulating means, wherein NO2 is generated by circulating a gas mixture including nitrogen and oxygen in the circulating path is provided. The high concentration ...


9
Toru Tanibata, Jae Mo Koo, Sang Hun Lee: Gas conversion system. ReCarbon, Patent Office of Dr Chung Park, January 21, 2014: US08633648

A gas conversion system using microwave plasma is provided. The system includes: a microwave waveguide; a gas flow tube passing through a microwave waveguide and configured to transmit microwaves therethrough; a temperature controlling means for controlling a temperature of the microwave waveguide; ...


10
Hirofumi Hayashi, Tomoyuki Hirose, Kazuhiro Kimura, Masaaki Mike, Ryuichi Iwasaki, Shigeru Masuda, Toru Tanibata, Joongsoo Kim, Sang Hun Lee, Jae Mo Koo, Orion Weihe, Andrew Way: Sterilization method. Noxilizer, Rahman, March 3, 2015: US08968651

By focusing on the fact that nitrogen dioxide exhibits an increased sterilizing effect among other sterilant gases including nitrogen oxide, the present invention is made to provide a sterilization method which may be suitably used for sterilizing items to be sterilized such as medical instruments w ...



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