Abstract: The invention relates to an electromagnetic piezoelectric acoustic sensor (EMPAS). The sensor comprises a piezoelectric sensor plate spaced apart from an induced dynamic electromagnetic field, such as from an electromagnetic coil through which AC current flows. The electromagnetic field induces vibration in the sensor plate by fluctuating the aligned dipole moments of the piezoelectric material. Changes on the surface of the sensor plate can be detected by variation in resonance frequency of the sensor plate. The invention represents an improvement over conventional sensor methodologies in that no metallization of the sensor surface is required, and no permanent magnet is needed. The sensor may be used to detect absorption of molecules or biomolecular interactions between probe and target molecules.

Abstract: The invention relates to an electromagnetic piezoelectric acoustic sensor (EMPAS). The sensor comprises a piezoelectric sensor plate spaced apart from an induced dynamic electromagnetic field, such as from an electromagnetic coil through which AC current flows. The electromagnetic field induces vibration in the sensor plate by fluctuating the aligned dipole moments of the piezoelectric material. Changes on the surface of the sensor plate can be detected by variation in resonance frequency of the sensor plate. The invention represents an improvement over conventional sensor methodologies in that no metallization of the sensor surface is required, and no permanent magnet is needed. The sensor may be used to detect absorption of molecules or biomolecular interactions between probe and target molecules.

Abstract: Enzyme-based regeneration of surface-attached nucleic acids is described herein. Microarrays involving hybridization of a probe to a target are important tools for genetic analysis. Conventionally, a microarray is used for a single analysis, after which it is discarded. The invention relates to a process for regeneration of a microarray through enzymatic digestion of a target from a surface-attached probe using a nuclease to digest a single strand of a nucleic acid duplex with directional specificity starting from the free end of the target strand. For example, a probe oligonucleotide bound to a gene chip at the 5?-end hybridizes to a target nucleic acid, leaving the 5? end of the target open to 5?–3? digestion. Lambda-exonuclease (?-exonuclease) cleaves single nucleotides from the 5? end of a duplex, progressing in the 5?–3? direction. Once the target strand is digested, the enzyme is rinsed from the microarray. The microarray is thus regenerated and ready for a subsequent use.

Abstract: A scanning Kelvin microprobe (SKM) system capable of measuring and analyzing surface characteristics of samples is provided. Also provided is a process of measuring and analyzing surface characteristics of samples. Further, there are provided uses of the SKM system in measuring and analyzing surface characteristics of conductors, semiconductors, insulators, chemicals, biochemicals, photochemicals, chemical sensors, biosensors, biochemical microarrays, microelectronic devices, electronic imaged devices, micromachined devices, nano-devices, corroded materials, stressed materials, coatings, adsorbed materials, contaminated materials, oxides, thin films, and self assembling monolayers.