Method for fabricating a micro-well of a biosensor

What is claimed is: 1. A bio-sensing semiconductor structure comprising: a transistor comprising a channel region and a gate underlying the channel region; a first dielectric layer overlying the transistor; a first opening extending through the first dielectric layer to expose the channel region; a bio-sensing layer lining the first opening and covering an upper surface of the channel region; a second dielectric layer lining the first opening over the bio-sensing layer; and a second opening within the first opening that extends to the bio-sensing layer, through a region of the second dielectric layer overlying the channel region. 2. The bio-sensing semiconductor structure according to claim 1 , wherein the bio-sensing layer has a dielectric constant exceeding about 3.9. 3. The bio-sensing semiconductor structure according to claim 1 , wherein the bio-sensing layer includes hafnium oxide. 4. The bio-sensing semiconductor structure according to claim 1 , wherein the bio-sensing layer and the second dielectric layer respectively have thicknesses of about 100 angstroms (Å) and about 1000 Å. 5. The bio-sensing semiconductor structure according to claim 1 , wherein the second opening has a width of about 0.2 micrometers (μm) to about 0.4 μm. 6. The bio-sensing semiconductor structure according to claim 1 , further including: a semiconductor layer underlying the first dielectric layer, wherein the channel region is arranged within the semiconductor layer between a pair of source/drain regions of the transistor; and a third dielectric layer underlying the semiconductor layer, wherein the gate is arranged within the third dielectric layer and spaced from the channel region by a fourth dielectric layer of the transistor. 7. The bio-sensing semiconductor structure according to claim 6 , wherein the bio-sensing layer and second dielectric layer each have a u-shaped or v-shaped cross-sectional profile. 8. The bio-sensing semiconductor structure according to claim 1 , further including: a microelectromechanical systems (MEMS) structure arranged over the first dielectric layer and configured to channel a test sample to the second opening using micro fluidics. 9. The bio-sensing semiconductor structure according to claim 1 , further including: a back-end-of-line (BEOL) metallization stack underlying the transistor, wherein the BEOL metallization stack includes a plurality of metallization layers stacked within a third dielectric layer and electrically coupled to the gate by a contact. 10. A bio-sensing semiconductor structure comprising: a substrate; a back-end-of-line (BEOL) metallization stack overlying the substrate and including a gate electrode near an upper surface thereof; a semiconductor layer overlying the BEOL metallization stack and including first and second source/drain regions which are spaced apart from one another by a channel region, wherein the channel region overlies the gate electrode and is separated therefrom by a gate dielectric layer; a first dielectric layer overlying the semiconductor layer and including a first opening therein, wherein the first opening is configured to retain a liquid test sample for bio-sensing analysis and is disposed directly over the channel region; a bio-sensing layer lining the first opening, covering inner sidewalls of the first dielectric layer proximate to the channel region, and covering an upper surface of the channel region; and a second dielectric layer overlying the bio-sensing layer and having a second opening that exposes less than an entire upper surface of the bio-sensing layer within the first opening. 11. The bio-sensing semiconductor structure according to claim 10 , wherein opposite sidewalls of the second opening are defined by the second dielectric layer and are laterally spaced between the first and second source/drain region. 12. The bio-sensing semiconductor structure according to claim 10 , wherein the bio-sensing layer is a different material than the first dielectric layer and the second dielectric layer. 13. The bio-sensing semiconductor structure according to claim 12 , wherein the bio-sensing layer is hafnium oxide, and wherein the first and second dielectric layers are silicon dioxide. 14. The bio-sensing semiconductor structure according to claim 10 , wherein the BEOL metallization stack comprises an interlayer dielectric layer, a plurality of metallization layers, a via layer, and a contact layer, wherein the via layer is between the metallization layers, wherein the contact layer is between a first metallization layer of the BEOL metallization stack and the semiconductor layer, and wherein the contact layer extends from contact with the gate electrode to contact with the first metallization layer. 15. The bio-sensing semiconductor structure according to claim 14 , further comprising: a through substrate via (TSV) extending through the substrate, from contact with a last metallization layer of the BEOL metallization stack to a bottom surface of the substrate, wherein the first metallization layer is a closest one of the metallization layers to the semiconductor layer, and wherein the last metallization layer is a farthest one of the metallization layers from the semiconductor layer. 16. The bio-sensing semiconductor structure according to claim 10 , wherein the bio-sensing layer covers a top surface of the first dielectric layer, wherein the second dielectric layer covers the bio-sensing layer outside the first opening, and wherein the bio-sensing semiconductor structure further comprises: a microelectromechanical systems (MEMS) structure arranged over the second dielectric layer and configured to channel a test sample to the first and second openings using micro fluidics, wherein the MEMS structure contacts the second dielectric layer on opposite sides of the first opening. 17. The bio-sensing semiconductor structure according to claim 10 , wherein the bio-sensing layer conformally lines the first opening, and wherein the second dielectric layer conformally lines the first opening over the bio-sensing layer. 18. The bio-sensing semiconductor structure according to claim 10 , wherein the source/drain regions extend continuously from a bottom surface of the semiconductor layer to a top surface of the semiconductor layer. 19. A semiconductor structure comprising: a semiconductor substrate comprising a pair of source/drain regions and a channel region, wherein the channel region is between the source/drain regions, and wherein the source/drain and channel regions each extend from a bottom surface of the semiconductor substrate to a top surface of the semiconductor substrate; a transistor comprising the source/drain regions, the channel region, and a gate electrode, wherein the gate electrode is directly under the channel region; a first dielectric layer covering the semiconductor substrate, wherein the first dielectric layer comprises a first well opening covering the channel region; a bio-sensing layer conformally lining and contacting sidewalls of the first well opening defined by the first dielectric layer, and further conformally lining and contacting a bottom surface of the first well opening defined by the semiconductor substrate, wherein the bio-sensing layer is a different material than the first dielectric layer; and a second dielectric layer conformally lining and contacting the bio-sensing layer, wherein the second dielectric layer lines the sidewalls of the first well opening over the bio-sensing layer, and further lines the bottom surface of