1
Peter J Zanzucchi, Satyam C Cherukuri, Sterling E McBride: Partitioned microelectronic and fluidic device array for clinical diagnostics and chemical synthesis. David Sarnoff Research Center, William J Burke, December 17, 1996: US05585069 (474 worldwide citation)

A system for processing a plurality of tests or syntheses in parallel comprising a sample channel for moving samples into a microlaboratory array of a plurality of wells connected by one or more channels for the testing or synthesis of samples, a station for housing the array and an optical system c ...


2
Peter J Zanzucchi, Satyam C Cherukuri, Sterling E McBride, Amrit K Judd: Partitioned microelectronic device array. David Sarnoff Research Center, William J Burke, January 14, 1997: US05593838 (462 worldwide citation)

A system for processing a plurality of tests or syntheses in parallel comprising a sample channel for moving samples into a microlaboratory array of a plurality of wells connected by one or more channels for the testing or synthesis of samples, a station for housing the array and an optical system c ...


3
Satyam C Cherukuri, Robert R Demers, Zhong H Fan, Aaron W Levine, Sterling E McBride, Peter J Zanzucchi: Method and system for inhibiting cross-contamination in fluids of combinatorial chemistry device. David Sarnoff Research Center, William J Burke, February 18, 1997: US05603351 (321 worldwide citation)

A system and method for accomplishing a plurality of combinatorial processes in parallel comprising a microelectronic and fluidic array (device array) having micron-sized reservoirs, connecting microchannels and reaction cells etched into a substrate. The device array is supported by a station which ...


4
Peter J Zanzucchi, Sterling E McBride, Charlotte A Burton, Satyam C Cherukuri: Apparatus and methods for controlling fluid flow in microchannels. David Sarnoff Research Center, William J Burke, May 27, 1997: US05632876 (239 worldwide citation)

By combining electro-osmotic and electrohydrodynamic pumps in a microchannel, both polar and non-polar fluids can be moved along said channel. The pumps can be made from pairs of wire electrodes inserted into openings in the channel and connected to a source of a pulsed DC power. By reversing the vo ...


5
Satyam C Cherukuri, Aaron W Levine, Sterling E McBride, Pamela K York: Electrohydrodynamic receptor. Sarnoff Corporation, William J Burke, November 9, 1999: US05980719 (185 worldwide citation)

An electrohydrodynamic (EHD) receptor that incorporates microchannels and reservoir(s) for selectively dispensing fluid from the reservoir(s) to a specific location, e.g., onto the surface of the receptor.


6
Lubomyr Stephen Onyskevych, Satyam C Cherukuri, Ashok Narayan Prabhu, P Niel Yocom, Kenneth E Salsman: Tessellated electroluminescent display having a multilayer ceramic substrate. David Sarnoff Research Center, William J Burke, July 1, 1997: US05644327 (70 worldwide citation)

An electroluminescent display formed on a ceramic substrate having a front ceramic surface and a back ceramic surface. The ceramic substrate includes a metal core that provides structural support, electrical ground, and heat dissipation. Electroluminescent cells are mounted on the front ceramic surf ...


7
Sheldon H Butt, Satyam C Cherukuri: Process for producing a hermetically sealed package for an electrical component containing a low amount of oxygen and water vapor. Olin Corporation, Gregory S Rosenblatt, Paul Weinstein, September 6, 1988: US04769345 (62 worldwide citation)

The present invention is directed to a process of forming a package for enclosing an electrical device wherein the enclosure contains a very low amount of oxygen and water vapor. The package includes a base and lid components bonded together by a sealing glass. The lid component contains a gettering ...


8
Satyam C Cherukuri, Judith Ann Ladd, Sterling E McBride, Pamela K York: Final print medium having target regions corresponding to the nozzle of print array. Sarnoff Corporation, William J Burke, May 15, 2001: US06231177 (41 worldwide citation)

A final print medium for receiving fluid to form an image has a plurality of target regions formed for receiving the fluid, wherein the target regions are separated by hydrophobic regions. The target regions and the hydrophobic regions are configured to receive the fluid from corresponding nozzles o ...


9
Pamela K York, Sterling E McBride, Satyam C Cherukuri: Parallel print array. Sarnoff Corporation, William J Burke, November 28, 2000: US06154226 (38 worldwide citation)

A print array that incorporates reservoir(s), microchannels and electrohydrodynamic (EHD) pumps for selectively dispensing fluid (ink) from the reservoir(s) onto the surface of a receptor.


10
Julius C Fister, Satyam C Cherukuri, Deepak Mahulikar, Brian E O Donnelly: Semiconductor die attach system. Olin Corporation, Gregory S Rosenblatt, Paul Weinstein, October 3, 1989: US04872047 (35 worldwide citation)

A semiconductor die attach system adapted for attaching a semiconductor die to a substrate is provided. A metallic buffer component is disposed between the substrate and the semiconductor die to withstand stresses created from thermal cycling of the substrate and the die. The metallic buffer compone ...