Abstract: A method for preparing a bonding pad on an integrated circuit wafer by the steps of depositing a conductive seed layer (104) on the bonding pad; depositing a metal layer (301, 302, and 303) over a portion of the conductive seed layer; and immersing the wafer in an etchant solution (501) to remove the portion of the seed layer not covered by the metal layer. The etchant solution contains a chelating agent that bonds ions from the seed layer. When the seed layer is copper or a refractory metal, and the metal layer is gold or palladium, the preferred chelating agent is selected from, but is not limited to, but is not limited to, the families of ethylenediaminetetraacetic acids (EDTA), 8-hydroxy-quinolines, including 8-hydroxy-quinoline-5-sulfonic acid, porphyrins, and phthalocyanines.

Abstract: A network for detecting a substance includes at least two detectors that are capable of transmitting a signal, and a remote station capable of receiving the signal. The detectors are adapted to detect a substance and transmit data that indicates the presence of that substance to the remote receiving station.

Abstract: A spectrophotometer transducer is disclosed that includes a chemically sensitive wave-guiding thin film and a light detector coupled to the wave-guiding thin film. The light detector is adapted to respond to light transmitted through the wave-guiding thin film. Vapors reacting with the wave-guiding thin film reflect light transmitted through the wave-guiding thin film. The light detector recognizes changes in the transmitted light to identify the vapor that reacted with the wave-guiding thin film.

Abstract: A vapor detector is disclosed, that includes a chemically sensitive waveguide and a light detector coupled to the waveguide. The light detector is adapted to respond to light transmitted through the waveguide. Vapors reacting with the waveguide reflect light transmitted through the waveguide. The light detector recognizes changes in the transmitted light to identify the vapor that reacted with the waveguide.

Abstract: A network for detecting a substance includes at least two detectors that are capable of transmitting a signal, and a remote station capable of receiving the signal. The detectors are adapted to detect a substance and transmit data that indicates the presence of that substance to the remote receiving station.

Abstract: An integrated biochemical sensor (200) for detecting the presence of one or more specific samples (240) having a device platform (355) with a light absorbing upper surface and input/output pins (375) is disclosed. An encapsulating housing (357) provides an optical transmissive enclosure which covers the platform (355) and has a layer of fluorescence chemistry on its outer surface (360). The fluorophore is chosen for its molecular properties in the presence of the sample analyte (240). The detector (370), light sources (365, 367, 407, 409) are all coupled to the platform (355) and encapsulated within the housing (357). A filter (375) element is used to block out unwanted light and increase the detector's (370) ability to resolve wanted emission light.