1
Jayati Ghosh, Bill J Peck, Eric M Leproust, Charles David Troup, Glenda Choate Delenstarr, Patrick J Collins, John F Corson, Paul K Wolber, Xiangyang Zhou: Method and system for quantifying and removing spatial-intensity trends in microarray data. Agilent Technologies, November 27, 2007: US07302348 (56 worldwide citation)

A method and system for quantifying and correcting spatial-intensity trends for each channel of a microarray data set having one or more channels. The method and system of one embodiment of the present invention selects a set of features from each channel of the microarray data set. Based on the sel ...


2
Bill J Peck: Fluid exit in reaction chambers. Agilent Technologies, January 25, 2005: US06846454 (13 worldwide citation)

Apparatus and methods are disclosed for controlling flow of fluid inside a chamber. A device comprises a chamber comprising at least one wall, a first opening for introducing a fluid into the interior of the chamber, and a second opening opposite the first opening. The at least one wall of the chamb ...


3
David R Adaskin, Bill J Peck, Stanley P Woods, William G Chesk: Generalized pulse jet ejection head control model. Agilent Technologies, January 25, 2011: US07875463 (12 worldwide citation)

A generalized printhead control model is provided herein as a basis for configuring printhead control software that will operate any selected printhead or group of printheads. The subject model covers a hierarchy of classes for the attributes of software that controls the printheads in a system, suc ...


4
Bill J Peck: Atmospheric control in reaction chambers. Agilent Technologies, October 16, 2007: US07282183 (9 worldwide citation)

Apparatus and methods are disclosed for controlling atmospheric characteristics inside a chamber. An apparatus comprises a mechanism for diffusively introducing pressurized gas into the apparatus, an outlet element in fluid communication with the mechanism, and a chamber in fluid communication with ...


5
Jay K Bass, Maryam Mobed Miremadi, Michelle M Maranowski, Roy H Kanemoto, Bill J Peck, Eric M Leproust, Michael P Caren: Manufacture of arrays with varying deposition parameters. Agilent Technologies, July 18, 2006: US07078505 (9 worldwide citation)

Methods are disclosed for synthesizing a plurality of compounds on the surface of supports. The synthesis comprises a series of cycles of steps in which reagents for conducting the synthesis are deposited on the surface of the support to form the chemical compounds. At least one physical parameter o ...


6
Bill J Peck: Flow cell humidity sensor system. Agilent Technologies, May 30, 2006: US07051574 (9 worldwide citation)

A system for monitoring water concentration in gaseous sample is disclosed. It is readily applicable in the synthesis of biopolymer arrays/microarrays involving the use of water-sensitive reagents. A flow cell is provided in which a capacitance sensor is placed separate from a production or synthesi ...


7
Bill J Peck: Flow cell humidity sensor system. Agilent Technologies, January 4, 2005: US06838888 (7 worldwide citation)

A system for monitoring water concentration in gaseous sample is disclosed. It is readily applicable in the synthesis of biopolymer arrays/microarrays involving the use of water-sensitive reagents. A flow cell is provided in which a capacitance sensor is placed separate from a production or synthesi ...


8
Richard O Hilson, Bill J Peck, Eric M Leproust: Chambers for storing arrays. Agilent Technologies, February 22, 2005: US06858186 (1 worldwide citation)

Apparatus and methods are disclosed for storing a plurality of supports having a plurality of chemical compounds bound to the surfaces of the supports. In the apparatus, a mechanism for diffusively introducing pressurized gas into the apparatus is in fluid communication with an outlet element compri ...


9
Bill J Peck: Atmospheric control in reaction chambers. Afilent Technologies, Legal Department DL429, June 26, 2003: US20030118482-A1 (1 worldwide citation)

Apparatus and methods are disclosed for controlling atmospheric characteristics inside a chamber. An apparatus comprises a mechanism for diffusively introducing pressurized gas into the apparatus, an outlet element in fluid communication with the mechanism, and a chamber in fluid communication with ...


10
Bill J Peck: Fluid exit in reaction chambers. Agilent Technologies, Legal Department DL429, June 26, 2003: US20030118717-A1 (1 worldwide citation)

Apparatus and methods are disclosed for controlling flow of fluid inside a chamber. A device comprises a chamber comprising at least one wall, a first opening for introducing a fluid into the interior of the chamber, and a second opening opposite the first opening. The at least one wall of the chamb ...