Membrane-based nano-electromechanical systems device and methods to make and use same

What is claimed is: 1. A sensor comprising: (a) a substrate having a cavity; (b) a thin electrically conductive membrane bounding at least part of the cavity; (c) a first source trace electrically connected to the thin electrically conductive membrane; (d) a first sensor trace operatively connected to the substrate; (e) a first gate trace operatively connected to the substrate; and (f) a second sensor trace located within the cavity. 2. The sensor of claim 1 , wherein the thin electrically conductive membrane covers the cavity. 3. The sensor of claim 1 , wherein the thin electrically conductive membrane comprises one layer of graphene. 4. The sensor of claim 1 , wherein the thin electrically conductive membrane comprises multiple layers of graphene. 5. The sensor of claim 1 , wherein the first gate trace is located within the cavity. 6. The sensor of claim 1 , wherein the first sensor trace is located between the first gate trace and the thin electrically conductive membrane. 7. The sensor of claim 1 further comprising a second source trace electrically connected to the thin electrically conductive membrane. 8. The sensor of claim 1 further comprising an array of particles mechanically connected to the thin electrically conductive membrane. 9. The sensor of claim 8 , wherein the particles comprise quantum dots. 10. A sensor comprising: (a) a substrate having a cavity; (b) a thin electrically conductive membrane bounding at least part of the cavity; (c) a first source trace electrically connected to the thin electrically conductive membrane; (d) a first sensor trace operatively connected to the substrate; (e) a first gate trace operatively connected to the substrate; (f) a proof mass mechanically connected to the thin electrically conductive membrane, wherein the proof mass was a mass made by the process wherein the proof mass was chemically etched from the same metallic foil used to grow the thin electrically conductive membrane. 11. The sensor of claim 10 , wherein the proof mass comprises metal. 12. The sensor of claim 10 , wherein the proof mass comprises copper. 13. A sensor comprising: (a) a substrate having a cavity; (b) a thin electrically conductive membrane bounding at least part of the cavity; (c) a first source trace electrically connected to the thin electrically conductive membrane; (d) a first sensor trace operatively connected to the substrate; (e) a first gate trace operatively connected to the substrate; and (f) a second gate trace located within the cavity. 14. A sensor comprising: (a) a substrate having a cavity; (b) a thin electrically conductive membrane bounding at least part of the cavity; (c) a first source trace electrically connected to the thin electrically conductive membrane; (d) a second source trace electrically connected to the thin electrically conductive membrane; (e) a first sensor trace located within the cavity; and (f) a third source trace electrically connected to the thin electrically conductive membrane. 15. The sensor of claim 14 further comprising a first gate trace located within the cavity. 16. The sensor of claim 14 , wherein the thin electrically conductive membrane comprises one layer of graphene. 17. The sensor of claim 14 , wherein the thin electrically conductive membrane comprises multiple layers of graphene. 18. The sensor of claim 14 , wherein the thin electrically conductive membrane covers the cavity. 19. A sensor comprising: (a) a substrate having a cavity; (b) a thin electrically conductive membrane bounding at least part of the cavity; (c) a first source trace electrically connected to the thin electrically conductive membrane; (d) a second source trace electrically connected to the thin electrically conductive membrane; (e) a first sensor trace located within the cavity; and (f) a second sensor trace located within the cavity.