1
Goran Jovanovic, Sundar V Atre, Brian Kevin Paul, John Simonsen, Vincent Thomas Remcho, Chih Hung Chang: Microfluidic devices, particularly filtration devices comprising polymeric membranes, and method for their manufacture and use. State of Oregon acting by and through the State Board of Higher Education on behalf of Oregon State University, Klarquist Sparkman, June 7, 2011: US07955504 (31 worldwide citation)

The present disclosure describes devices useful for microscale fluid purification, separation, and synthesis devices. Generally, such devices comprise a fluid membrane that separates two or more fluids flowing through plural microchannels operatively associated with the membrane. Often, the membrane ...


2
Goran Jovanovic, Sundar V Atre, Brian Kevin Paul, John Simonsen, Vincent Thomas Remcho, Chih Hung Chang: Microfluidic devices, particularly filtration devices comprising polymeric membranes, and method for their manufacture and use. State of Oregon acting by and through the State Board of Higher Education on behalf of Oregon State University, Klarquist Sparkman, March 20, 2012: US08137554 (26 worldwide citation)

The present disclosure describes devices useful for microscale fluid purification, separation, and synthesis devices. Generally, such devices comprise a fluid membrane that separates two or more fluids flowing through plural microchannels operatively associated with the membrane. The fluids can both ...


3
John Simonsen, Bruce Douglas Gibson, Heinz Walter Gruner: Electric measuring device having a small-bore liquid container with improved electrode sealing means. Sybron Corporation, Theodore B Roessel, Joseph C MacKenzie, October 3, 1978: US04117720 (6 worldwide citation)

An electromagnetic flowmeter having a small-bore flow tube having a thick-walled plastic tube having a conically-relieved electrode-receiving bore. A compression ring around the conical part of the tube squeezes the plastic sealingly between the electrode and the ring. In assembly, compressive force ...


4
Yanyun Zhao, John Simonsen, George Cavender, Jooyeoun Jung, Leslie H Fuchigami: Nano-cellulose coatings to prevent damage in foodstuffs. Oregon State University, Klarquist Sparkman, November 28, 2017: US09826750

Disclosed herein are embodiments of a composition for use in forming films or coatings that prevent damage in foodstuffs, including plants, fruits, and vegetables. The disclosed compositions comprise a cellulose nanomaterial and can further comprise a nanoscale mineral compound and one or more addit ...


5
W Paul Willes, Samuel C Kingston, Ronald S Leahy, Raied Mazahreh, Ryan Hoobler, Lyman Horne, John Simonsen: Digital narrow band power line communication system. Phonex Broadband Corporation, Lloyd W Sadler, Parsons Behle & Latimer, February 26, 2004: US20040037311-A1

A method and system for providing low cost narrow band digital power line communication using OFDM-like protocols to promote spectral diversity, reduce data loss, and provide higher data throughput. This invention provides a specific design to accommodate the requirements of a wide variety of commun ...


6
Goran Jovanovic, Sundar V Atre, Brian Kevin Paul, John Simonsen, Vincent Thomas Remcho, Chih Hung Chang: Microfluidic devices, particularly filtration devices comprising polymeric membranes, and method for their manufacture and use. State University, State of Oregon acting by and through the State Board of Higher Education on behalf of Oregon, October 20, 2011: US20110253629-A1

The present disclosure describes devices useful for microscale fluid purification, separation, and synthesis devices. Generally, such devices comprise a fluid membrane that separates two or more fluids flowing through plural microchannels operatively associated with the membrane. The fluids can both ...


7
Goran Jovanovic, Sundar V Atre, Brian Kevin Paul, John Simonsen, Vincent Thomas Remcho, Chih Hung Chang: Microfluidic devices, particularly filtration devices comprising polymeric membranes, and methods for their manufacture and use. State University, State of Oregon acting by and through the State Board of Higher Education on behalf of Oregon, March 29, 2012: US20120074062-A1

The present disclosure describes devices useful for microscale fluid purification, separation, and synthesis. Such devices generally comprise a fluid membrane that separates two or more fluids flowing through plural microchannels operatively associated with the membrane. Often, the membrane is a sem ...


8
Goran Jovanovic, Sundar V Atre, Brian Kevin Paul, John Simonsen, Vincent Thomas Remcho, Chih Hung Chang: Microfluidic devices, particularly filtration devices comprising polymeric membranes, and method for their manufacture and use. Oregon State University, the State of Oregon acting by and through the State Board of Higher Education on behalf of, November 22, 2012: US20120292246-A1

The present disclosure describes devices useful for microscale fluid purification, separation, and synthesis. Such devices generally comprise a fluid membrane that separates two or more fluids flowing through plural microchannels operatively associated with the membrane. Often, the membrane is a sem ...