Abstract: The present invention relates to a method and system that provides independent control over lighting within a computer case. Each inverter module is provided with its own switch to facilitate independent control of illumination. Preferably, the switches are located in a bus that fits within a drive bay and the inverter is directly mounted onto the housing that contains the switch. In another embodiment, the inverter is integrated in a printed circuit board that is inserted into the card slots (e.g. ISA, VESA, PCI, and PCI-Express card slot) on the mother board of the computer. Therefore, the on and off of CCFL inverter can be controlled by software application through the ISA, VESA, PCI, or PCI-Express bus.

Abstract: A method and sensor for detecting the presence of specific target nucleic acids uses a biosensor comprising an array of single stranded probe oligonucleotides, wherein one end of each probe oligonucleotide is linked to a label and the other end of each probe oligonucleotide is attached to an electrode of a solid support. The method includes determining the capacitance at one or more of the electrodes, where a change in the capacitance of the one or more electrodes indicates the presence of target nucleic acid complementary to the single stranded oligonucleotide probe.

Abstract: The present invention relates to a method and system that provides independent control over lighting within a computer case. Each inverter module is provided with its own switch to facilitate independent control of illumination. Preferably, the switches are located in a bus that fits within a drive bay and the inverter is directly mounted onto the housing that contains the switch. In another embodiment, the inverter is integrated in a printed circuit board that is inserted into the card slots (e.g. ISA, VESA, PCI, and PCI-Express card slot) on the mother board of the computer. Therefore, the on and off of CCFL inverter can be controlled by software application through the ISA, VESA, PCI, or PCI-Express bus.

Abstract: An infrared sensor with at least one cantilever beam functionalized with chitin, chitosan or their derivatives that can be tailored to be sensitive to certain IR bands for detection and does not require cooling is described. The functional layers expand differently than the structural layer of the cantilever beam causing the beam to bend in response to exposure to infrared radiation. The sensor can be adapted to optical, piezoresistive, capacitive and piezoelectric methods of detect beam deflection. Sensitivity can be increased with a reflective layer to increase the absorption of infrared radiation by the functional layer.

Abstract: An infrared sensor with at least one cantilever beam functionalized with chitin, chitosan or their derivatives that can be tailored to be sensitive to certain IR bands for detection and does not require cooling is described. The functional layers expand differently than the structural layer of the cantilever beam causing the beam to bend in response to exposure to infrared radiation. The sensor can be adapted to optical, piezoresistive, capacitive and piezoelectric methods of detect beam deflection. Sensitivity can be increased with a reflective layer to increase the absorption of infrared radiation by the functional layer.