1
Handique Kalyan, Gogoi Bishnu, Burns Mark A, Mastrangelo Carlos H: Moving microdroplets. The Regents Of The University Of Michigan, Handique Kalyan, Gogoi Bishnu, Burns Mark A, Mastrangelo Carlos H, CARROLL Peter G, April 8, 1999: WO/1999/017093 (5 worldwide citation)

The movement and mixing of microdroplets through microchannels is described employing microscale device. Sample and reagent are injected into the device through entry ports (A) and they are transported as discrete droplets through channels (B) to a reaction chamber, such as a thermally controlled re ...


2
Mastrangelo Carlos H, Man Piu F, Webster James R: Polymer-based micromachining technology for microfluidic devices. The Regents Of The University Of Michigan, Mastrangelo Carlos H, Man Piu F, Webster James R, CARROLL Peter G, February 19, 1998: WO/1998/007069 (1 worldwide citation)

The present invention relates to polymer-based micro-electro-mechanical system (MEMS) technology suitable for the fabrication of integrated microfluidic systems, particularly medical and chemical diagnostics system, ink-jet printer head, as well as any devices that requires liquid- or gas-filled cav ...


3
Handique Kalyan, Gogoi Bishnu, Burns Mark A, Mastrangelo Carlos H: Moving microdroplets. Univ Michigan, July 12, 2000: EP1017984-A1

The movement and mixing of microdroplets through microchannels is described employing microscale device. Sample and reagent are injected into the device through entry ports (A) and they are transported as discrete droplets through channels (B) to a reaction chamber, such as a thermally controlled re ...


4
Handique Kalyan, Gogoi Bishnu, Burns Mark A, Mastrangelo Carlos H: Deplacement et melangeage de microgouttelettesa travers des microcanaux, Moving and mixing of microdroplets through microchannels. The Regents Of The University Of Michigan, The Regents Of The University Of Michigan, SMART & BIGGAR, April 8, 1999: CA2304641

The movement and mixing of microdroplets through microchannels is described employing microscale device. Sample and reagent are injected into the device through entry ports (A) and they are transported as discrete droplets through channels (B) to a reaction chamber, such as a thermally controlled re ...


5
Akkaraju Sandeep, Iyer Nan, Mastrangelo Carlos H: Micromechanical optical switch and method of manufacture. Corning Intellisense Corporation, BEAN Gregory V, March 7, 2002: WO/2002/019011

The present invention relates to optical MEMS components, and in particular, to methods of fabricating a micromechanical optical switch. A removable layer is used during fabrication to define the gap between optical waveguides and a moveable element in the form of a mirror that is moved between stat ...


6
Mutlu Senol, Selvaganapathy Ponnambalam, Mastrangelo Carlos H, Svec Frantisek, Frechet Jean M J, Yu Cong: Porous polymers: compositions and uses thereof. The Regents Of The University Of Michigan, Mutlu Senol, Selvaganapathy Ponnambalam, Mastrangelo Carlos H, Svec Frantisek, Frechet Jean M J, Yu Cong, CARROLL Peter G, August 14, 2003: WO/2003/066684

A composition, method and use is disclosed for a porous plug that functions as an electro-osmotic pump. The polymer eliminates any back pressure effects while enhancing the electro-osmotic flow in a channel. The pump is bach fabricated by surface micromachining on top of a silicon wafer. The pump de ...


7
Selvaganapathy Ponnambalam, Burns Mark A, Burke David T, Mastrangelo Carlos H: Microscale electrophoresis devices for biomolecule separation and detection. The Regents Of The University Of Michigan, Selvaganapathy Ponnambalam, Burns Mark A, Burke David T, Mastrangelo Carlos H, CARROLL Peter G, July 24, 2003: WO/2003/060474

The present invention relates to microfabrication and utilization of microscale electrophoresis devices as well as the separation and detection of biomolecules in microscale electrophoresis devices. The device of the present invention utilizes novel fabrication and detection methods.


8
MASTRANGELO Carlos H, FERNANDEZ Renny E: COMPOSITIONS ET MÉTHODES DE SÉQUENÇAGE DE LADN, COMPOSITIONS AND METHODS FOR SEQUENCING DNA. UNIVERSITY OF UTAH RESEARCH FOUNDATION, MASTRANGELO Carlos H, FERNANDEZ Renny E, LANGER Michael R, May 10, 2012: WO/2012/061726

Provided are compositions and methods for sequencing a target polynucleotide that has been used to generate an elongated polynucleotide having a plurality of segments, each segment corresponding to one of the nucleic acid residues of the target polynucleotide and having a sequence motif. The composi ...


9
MASTRANGELO CARLOS H: Signal locking label free biosensing. UNIVERSITY OF UTAH RESEARCH FOUNDATION, Ericksen Erik S, October 6, 2011: WO/2011/123677

A biosensor can include a fluid flow channel (12), a pulsing mechanism (14), and a binding response measurement mechanism (16). The fluid flow channel (12) can include an inlet (18) to accept a fluid into the fluid flow channel and an outlet (20). At least one binding sensor surface (22) can be orie ...


10
MASTRANGELO Carlos H: Microparticules sensibles à la pression pour mesurer des caractéristiques dun débit de fluide, Pressure sensitive microparticles for measuring characteristics of fluid flow. University Of Utah Research Foundation, MASTRANGELO Carlos H, ERICKSEN Erik S, December 29, 2011: WO/2011/163608

Microparticles (200) and systems and methods for measuring characteristics of fluid flow using the microparticles are described. The microparticle (200) can include at least one flexible wall (205) which can deflect when an outer pressure on an outer side of the wall is different than an inner press ...