Broadband optical limiter based on nano-graphene and method of fabricating same

What is claimed is: 1. A graphene-based broadband optical limiter, comprising: a graphene suspension, comprising: (a) a plurality of graphene nano-sheets, comprising aggregated gold nanoparticles; and (b) a base material in which the plurality of graphene nano-sheets is suspended, wherein the base material is a polymer gel matrix, wherein the graphene-based broadband optical limiter is characterized with an optical limiting response of an absorbance greater than about 0.15, and a limiting strength of the optical limiting response decreases as a wavelength of an incident light increases; and wherein due to laser photothermal reshaping by performing laser irradiation to the graphene suspension, the aggregated gold nanoparticles are broken down into smaller sizes to form re-aggregatable gold nanoparticles, such that the graphene suspension has enhanced absorption effects at about 532 nm and reversible and recoverable absorption properties due to the breaking down of the aggregated gold nanoparticles and re-aggregation of the re-aggregatable gold nanoparticles. 2. The graphene-based broadband optical limiter of claim 1 , having a limiting threshold such that when an input fluence of the incident light is equal to or greater than the limiting threshold, the limiting strength of the optical limiting response is substantially stronger than that when the input fluence of the incident light is less than the limiting threshold, wherein the limiting threshold increases as the wavelength of an incident light increases. 3. The graphene-based broadband optical limiter of claim 2 , wherein the optical limiting response is characterized with a normalized transmittance as a function of the input fluence of the incident light, wherein when the input fluence of the incident light is equal to or greater than the limiting threshold, the normalized transmittance decreases nonlinearly as the input fluence increases. 4. The graphene-based broadband optical limiter of claim 1 , wherein the optical limiting response is controllable by changing at least one of graphene sizes, π conjugation and degrees of chemical functionalization. 5. The graphene-based broadband optical limiter of claim 1 , wherein the optical limiting response is controllable by forming composites with optical limiting materials including the gold nanoparticles. 6. The graphene-based broadband optical limiter of claim 1 , wherein the optical limiting response is controllable by introducing species into graphene 2D network, and wherein the species includes epoxide, hydroxyl, carbonyl and carboxyl groups. 7. The graphene-based broadband optical limiter of claim 1 , wherein the optical limiting response exists from UV to IR wavelengths independently. 8. The graphene-based broadband optical limiter of claim 1 , wherein each of the plurality of graphene nano-sheets has lateral dimensions of about 200 nm by 300 nm, and a thickness of about 1 nm. 9. An optical limiting device, comprising the graphene-based broadband optical limiter of claim 1 . 10. The graphene-based broadband optical limiter of claim 1 , wherein the polymer gel matrix comprises a poly(vinyl alcohol) gel. 11. The graphene-based broadband optical limiter of claim 1 , being dispersed in an organic solvent. 12. The graphene-based broadband optical limiter of claim 11 , wherein the optical limiting response is controllable by varying the viscosity and polarity of the organic solvent.