Chitosan biopolymer and chitosan biopolymer based triboelectric nanogenerators

The invention claimed is: 1. A triboelectric nanogenerator comprising a chitosan-based biopolymer, wherein the chitosan-based biopolymer comprises a reaction product of a mixture comprising at least a chitosan and an acid, and at least one additional component comprising glycerol, starch, lignin or any combination thereof, wherein the chitosan-based biopolymer is presented as a film, wherein the film has a 30-90 wt % of chitosan, and wherein the triboelectric nanogenerator has a tunable output power density of 150-250 nW/cm 2 . 2. The triboelectric nanogenerator of claim 1 , wherein the acid is acetic acid. 3. The triboelectric nanogenerator of claim 2 , wherein the chitosan-based biopolymer comprises a reaction product of a mixture comprising chitosan, acetic acid, and glycerol, wherein the chitosan-based biopolymer presents as a film, and the film is soluble in water to function as a suitable biodegradable film. 4. The triboelectric nanogenerator of claim 2 , wherein the chitosan-based biopolymer comprises a reaction product of a mixture comprising chitosan, acetic acid, and starch. 5. The triboelectric nanogenerator of claim 2 , wherein the acetic acid has a concentration of at least 10% (v/v). 6. The triboelectric nanogenerator of claim 1 , wherein the film is substantially free of gas/air and solvent. 7. The triboelectric nanogenerator of claim 1 , wherein the film is further treated with a laser beam. 8. A chitosan based biopolymer, wherein the biopolymer is a reaction product of a mixture comprising at least a chitosan and an acid, and at least one or more component selected from the group consisting of starch, glycerol, lignin, and any combination thereof, wherein the chitosan based biopolymer is presented as a film, wherein the film has a 30-90 wt % of chitosan, wherein the chitosan based film is capable of generating a tunable output power density of 150-250 nW/cm 2 in a triboelectric nanogenerator. 9. The chitosan-based biopolymer of claim 8 , wherein the acid is acetic acid. 10. The chitosan based biopolymer of claim 8 , wherein the chitosan-based biopolymer can generate a output voltage of 0.1-5 V. 11. The method of claim 8 , wherein the film is further treated with a laser beam. 12. A method of preparing a chitosan based biopolymer, wherein the method comprises reacting a chitosan with an acid, and at least with a starch, glycerol, or any combination thereof to form a chitosan based gel; preparing a chitosan based film with the chitosan based gel; and treating the surface of the chitosan based film with a laser beam, wherein the chitosan based film is capable of generating a tunable output power density of 150-250 nW/cm 2 in a triboelectric nanogenerator. 13. The method of claim 12 , wherein the acid is acetic acid.