Patent ID: 7871571

Claim:
A biomolecule analyzing system (BAS) comprising: a) a first substrate and a second substrate, wherein each substrate comprises a piezoelectric material having an irregular crystal matrix, said substrates also having an inner edge, an outer edge, an outer surface and an inner surface, wherefrom the inner surface of said first substrate extends downward a multiplicity of probes, and from said inner surface of said second substrate extends upward a multiplicity of probes, wherein said probes include cilia comprising single-walled carbon nanotubes, wherein the termini of said probes are spaced apart from each other and are in an anti-parallel configuration, b) a first image capturing device that is attached to said outer surface of said first substrate, and a second image capturing device that is attached to said outer surface of said second substrate, wherein each said device is applied a signal from said respective first and second substrates, thereby causing each of said devices to produce an output, c) an electronic data processor having a duel input that is applied from said two outputs of said first and second image capturing devices, wherein said processor operates in combination with software to control the operation of said BAS, d) a d-c power source having means for supplying the required electrical power levels to said BAS, wherein the outputs from said d-c power source are controlled by said electronic data processor, e) a biomolecule passage track comprising: (1) a non-conductive input tube having an input edge that is attached to a biomolecule sample reservoir, and an output edge that is attached to the inner edges of said first and second substrates, and (2) a non-conductive output tube having an input edge that is attached to the outer edges of said first and second substrates, and an output edge that is attached to a sample deposit chamber, wherein said input and output tubes having means for causing a biomolecule sample applied from said biomolecule sample reservoir to sequentially traverse through said input tube, the space between said multiplicity of probes, through said output tube and terminating at said sample deposit chamber, wherein when the biomolecule passes through the area surrounding said multiplicity of spaced probes, said probes are stimulated, thereby causing a charge to be applied to said first and second substrates, from where a pair of signals are then produced that are applied to said first and second image capturing devices where the input signals are converted to an image that is applied to and processed by said electronic data processor and viewed on a data monitoring device as a three dimensional image.