Magnetic immunosensor and method of use

What is claimed is: 1. A microfabricated magnetic layer on a substantially planar surface, wherein the microfabricated magnetic layer comprises: high-field permanent magnetic particulates dispersed in a thermally, chemically or photoformably cured immobilization matrix; wherein the immobilization matrix comprises a polyimide, polyvinyl alcohol, or epoxy resin; wherein the microfabricated magnetic layer is positioned substantially proximate to a microfabricated sensing electrode, wherein the electrode is connected by a conductive line to instrument electronics, wherein the microfabricated magnetic layer is not the conductive line, wherein the microfabricated magnetic layer is positioned to attract magnetically susceptible beads coated with a capture antibody to a target analyte, wherein the electrode is an amperometric electrode, and wherein the magnetic layer is configured to concentrate the magnetically susceptible beads with the capture antibody and the target analyte within a sample fluid at the electrode for measurement, and wherein the amperometric electrode is configured to detect the target analyte. 2. The microfabricated magnetic layer of claim 1 , wherein the magnetic particulates comprise a neodymium iron boron (NdFeB) alloy. 3. The microfabricated magnetic layer of claim 1 , wherein the magnetic particulates comprise a Nd 2 Fe 14 B alloy. 4. The microfabricated magnetic layer of claim 1 , wherein the magnetic particulates have an average particle size of from 0.01 μm to 20 μm. 5. The microfabricated magnetic layer of claim 1 , wherein the magnetic particulates have an average particle size of from 0.01 μm to 5 μm. 6. The microfabricated magnetic layer of claim 1 , wherein the immobilization matrix comprises polyimide. 7. The microfabricated magnetic layer of claim 1 , wherein the immobilization matrix comprises polyvinyl alcohol. 8. The microfabricated magnetic layer of claim 1 , wherein the magnetic particulates provide a magnetic field of greater than about 0.1 Tesla. 9. The microfabricated magnetic layer of claim 1 , wherein the microfabricated magnetic layer is positioned to yield an event horizon for the magnetically susceptible beads in the range of less than about 200 μm in the region of the electrode. 10. The microfabricated magnetic layer of claim 1 , wherein the electrode is a gold microarray. 11. The microfabricated magnetic layer of claim 1 , wherein the microfabricated magnetic layer is positioned over the substantially planar surface. 12. The microfabricated magnetic layer of claim 1 , wherein the microfabricated magnetic layer is directly attached to the substantially planar surface. 13. The microfabricated magnetic layer of claim 1 , wherein the microfabricated magnetic layer is coated onto the surface of the substantially planar surface. 14. The microfabricated magnetic layer of claim 1 , wherein the microfabricated magnetic layer is patterned onto the surface of the substantially planar surface. 15. The microfabricated magnetic layer of claim 1 , wherein the microfabricated magnetic layer is positioned proximate to the sensing electrode.