Michael Mueller - Alameda CA, US Jim Cheng - Berkeley CA, US Albert Pisano - Danville CA, US
Assignee:
The Regents of the University of California - Oakland CA
International Classification:
G01J 5/00
US Classification:
2503381
Abstract:
An organic material can be used in a modified strain gauge for IR transduction, resulting in an organic IR sensor. Infrared radiation incident on the organic material modulates a displacement of the material in order to detect the presence and intensity of IR radiation. This innovative design doesn't require cooling, and is sensitive to 9 and 3 μm—wavelengths that are emitted by mammals and forest fires, respectively. In addition, a photomechanical polymer can be used in a transistor based on a thin-film transistor (TFT), also resulting in an IR sensor. Through careful synthesis of the polymers, the photomechanical response of the transistor can be tailored to certain IR bands for detection purposes.
Chip-Scale Sensing Device For Low Density Material And Method Of Making Same
- Newark CA, US Jim Chih-Min Cheng - Fremont CA, US Richard Ian Olsen - Truckee CA, US
International Classification:
G01N 27/407 G01N 27/404 G01N 27/30 G01N 27/416
Abstract:
An electrochemical sensor device that is efficiently and economically produced at the chip level for a variety of applications is disclosed. In some aspects, the device is made on or using a wafer technology whereby a sensor chamber is created by said wafer and a gas port allows for a working electrode of the sensor to detect certain gases. Large scale production is possible using wafer technology where individual sensors are produced from one or more common wafers. Integrated circuits are made in or on the wafers in an integrated way so that the wafers provide the substrate for the integrated circuitry and interconnects as well as providing the definition of the chambers in which the gas sensors are disposed.
Chip-Scale Sensing Device For Low Density Material
- Newark CA, US Jim Chih-Min Cheng - Fremont CA, US Richard Ian Olsen - Truckee CA, US
International Classification:
G01N 27/407 G01N 27/30 G01N 27/416
Abstract:
An electrochemical sensor device that is efficiently and economically produced at the chip level for a variety of applications is disclosed. In some aspects, the device is made on or using a wafer technology whereby a sensor chamber is created by said wafer and a gas port allows for a working electrode of the sensor to detect certain gases. Large scale production is possible using wafer technology where individual sensors are produced from one or more common wafers. Integrated circuits are made in or on the wafers in an integrated way so that the wafers provide the substrate for the integrated circuitry and interconnects as well as providing the definition of the chambers in which the gas sensors are disposed.
- Newark CA, US Jim Chih-Min Cheng - Fremont CA, US Eric Paul Lee - Mountain View CA, US
International Classification:
G01N 27/407
Abstract:
An electrochemical gas sensor device with small physical footprint is disclosed. The electrodes within the element are arranged about the electrolyte such that the electrical impedance of the sensor is minimized. This results in a fast stabilization after detecting gasses and enables rapid changes in bias voltage to target different gasses. Gasketing elements, or alternative designs, are included to eliminate the diffusion of gasses between the electrodes within the cell.
- Berkeley CA, US Jim Chih-Min Cheng - Berkeley CA, US
International Classification:
F28D 15/04 H01L 23/427 H05K 7/20
Abstract:
Aspects of the invention include microcooling system that provides a simple, unitary, two dimensional construct with capacity to remove heat effectively from the internal structures of microelectronic devices.
a5tek
vp of operations
a5tek 1999 - 2009
VP of operations
Interests:
A5tek is digital sinage software developer, please first watch
www.a5tek.com. We are looking for partners, resellers and integrators that are going to use. Looking forward to hear from you.
I would be remiss to not recognize the great teamwork of the Administration, the Virginia Economic Development Partnership, the Martinsville-Henry County Economic Development Corporation and the Mid-Atlantic Broadband Cooperative, who all worked together to ensure that ICF International picked Henry County, said Jim Cheng, ViVirginia Secretary of Commerce and Trade Jim Cheng, Virginia Secretary of Technology Jim Duffey and Virginia Deputy Secretary of Commerce and Trade for Rural Economic Development Mary Rae Carter also played an integral role in the project.