Abstract: A sensor assembly for sensors such as microfabricated resonant sensors is disclosed. The disclosed assembly provides improved performance of the sensors by providing a thermally insensitive environment and short pathways for signals to travel to processing components. Further, the assembly provide modular construction for the sensors and housing modules, thereby allowing replacement of the sensors at a lower cost. The assembly includes a sensor module including a sensor formed on a conductive substrate with a cavity formed on one surface. The substrate has conductive vias extending from the cavity to a second surface of the substrate. A housing assembly accommodates the sensor and includes a rigid housing, preferably made from a ceramic. An electronic component, such as an amplifier, is mounted on the rigid housing. The electronic component electrically engages the vias substantially at the second surface of the substrate. The electronic component receive signals from the sensor through the vias.
Type:
Application
Filed:
March 19, 2003
Publication date:
March 4, 2004
Applicant:
Molecular Reflections
Inventors:
Colby Bellew, Boyce E. Collins, Kelvin Liu
Abstract: A sensor assembly for sensors such as microfabricated resonant sensors is disclosed. The disclosed assembly provides improved performance of the sensors by providing a thermally insensitive environment and short pathways for signals to travel to processing components. Further, the assembly provide modular construction for the sensors and housing modules, thereby allowing replacement of the sensors at a lower cost. The assembly includes a sensor module including a sensor formed on a conductive substrate with a cavity formed on one surface. The substrate has conductive vias extending from the cavity to a second surface of the substrate. A housing assembly accommodates the sensor and includes a rigid housing, preferably made from a ceramic. An electronic component, such as an amplifier, is mounted on the rigid housing. The electronic component electrically engages the vias substantially at the second surface of the substrate. The electronic component receive signals from the sensor through the vias.
Abstract: The present invention provides methods for the immobilization of molecules to a surface using a hydrogel. In particular, the invention relates to the formation and use of a hydrogel in a microscale environment, such as that used for the screening of molecules with microfabricated mechanical resonant sensors. In a preferred embodiment, the molecule is coupled to polyethylene glycol, or a block co-polymer and/or derivative thereof, and immobilized to a planar oxide surface that has been silanized. The immobilized molecule can then be used in a microscale screening or binding assay in an optimal hydrogel environment.