Biodegradable pressure sensor

What is claimed is: 1. A biodegradable system comprising: one or more magnesium wires encapsulated by poly-lactic acid; a biodegradable piezoelectric device connected to the one or more magnesium wires, the biodegradable piezoelectric device including a first magnesium electrode, a second magnesium electrode, and a polymer film positioned between the first magnesium electrode and the second magnesium electrode, the polymer film comprisinq a piezoelectric poly-L-lactic acid film, wherein the biodegradable piezoelectric device is encapsulated by a biodegradable polymer; and a charcie amplifier circuit connected to the biodegradable piezoelectric device, wherein the charge amplifier circuit is configured to convert a charge from the biodegradable piezoelectric device into a voltage signal and output the voltage signal to an electronic device. 2. The biodegradable system of claim 1 , wherein the biodegradable piezoelectric device includes at least one selected from a group consisting of a biodegradable piezoelectric sensor, a biodegradable piezoelectric actuator, and a biodegradable piezoelectric energy harvester. 3. The biodegradable system of claim 1 , wherein the biodegradable polymer polymer has a molecular weight of at least 200 kDa. 4. The biodegradable system of claim 1 , wherein the biodegradable piezoelectric device has a functional lifetime proportional to at least one selected from a group consisting of an amount of piezoelectric poly-L-lactic acid film layers included in the polymer film and a molecular weight of each piezoelectric poly-L-lactic acid film layer included in the polymer film. 5. The biodegradable system of claim 4 , wherein the functional life time of the biodegradable piezoelectric device increases as the amount or thickness of poly-lactic acid film layers encapsulating the sensor increases. 6. The biodegradable system of claim 4 , wherein the functional life time of the biodegradable piezoelectric device increases as the molecular weight of each encapsulating poly-lactic acid film layers included in the sensor increases. 7. The biodegradable system of claim 1 , wherein the polymer film includes two layers of a piezoelectric poly-L-lactic acid film. 8. The biodegradable system of claim 1 , wherein the biodegradable piezoelectric device is configured to function as a sensitive multi-layer pressure transducer. 9. The biodegradable system of claim 1 , wherein the biodegradable piezoelectric device is configured to output a charge in response to a pressure applied to the biodegradable piezoelectric device. 10. The biodegradable system of claim 1 , wherein the biodegradable piezoelectric device has a size of approximately 0.5×0.5×0.02 cm. 11. The biodegradable system of claim 1 , wherein the biodegradable piezoelectric device is configured to sense pressure within a range of approximately 1-50 mmHg. 12. A biodegradable system comprising: one or more molybdenum wires encapsulated by poly-lactic acid; a biodegradable piezoelectric device connected to the one or more molybdenum wires, the biodegradable piezoelectric device including a first molybdenum electrode, a second molybdenum electrode, and a polymer film positioned between the first molybdenum electrode and the second molybdenum electrode, the polymer film comprising a piezoelectric poly-L-lactic acid film, wherein the biodegradable piezoelectric device is encapsulated by a biodegradable polymer; and a charge amplifier circuit connected to the biodegradable piezoelectric device, wherein the charge amplifier circuit is configured to convert a charge from the biodegradable piezoelectric device into a voltage signal and output the voltage signal to an electronic device. 13. The biodegradable system of claim 12 , wherein the biodegradable piezoelectric device includes at least one selected from a group consisting of a biodegradable piezoelectric sensor, a biodegradable piezoelectric actuator, and a biodegradable piezoelectric energy harvester. 14. The biodegradable system of claim 12 , wherein the biodegradable polymer has a molecular weight of at least 200 kDa. 15. The biodegradable system of claim 12 , wherein the biodegradable piezoelectric device has a functional lifetime proportional to at least one selected from a group consisting of an amount of piezoelectric poly-L-lactic acid film layers included in the polymer film and a molecular weight of each piezoelectric poly-L-lactic acid film layer included in the polymer film. 16. The biodegradable system of claim 15 , wherein the functional life time of the biodegradable piezoelectric device increases as the amount or thickness of poly-lactic acid film layers encapsulating the sensor increases. 17. The biodegradable system of claim 15 , wherein the functional life time of the biodegradable piezoelectric device increases as the molecular weight of each encapsulating poly-lactic acid film layers included in the sensor increases. 18. The biodegradable system of claim 12 , wherein the polymer film includes two layers of a piezoelectric poly-L-lactic acid film. 19. The biodegradable system of claim 12 , wherein the biodegradable piezoelectric device is configured to function as a sensitive multi-layer pressure transducer. 20. The biodegradable system of claim 12 , wherein the biodegradable piezoelectric device is configured to output a charge in response to a pressure applied to the biodegradable piezoelectric device. 21. The biodegradable system of claim 12 , wherein the biodegradable piezoelectric device has a size of approximately 0.5×0.5×0.02 cm. 22. The biodegradable system of claim 12 , wherein the biodegradable piezoelectric device is configured to sense pressure within a range of approximately 1-50 mmHg.