Colloidal fingerprints for soft materials using total holographic characterization

What is claimed: 1. A method for identifying a colloidal fingerprint of a material, comprising: analyzing a colloidal sample having a plurality of particles using holographic light microscopy by: determining for each of the plurality of samples, by holographic light microscopy, particle radius and refractive index; illuminating the colloidal sample within a microfluidic channel; generating a plurality of holograms for one or more particles of the plurality of particles in the colloidal sample; determining using holographic light microscopy a joint distribution of particle radius (a p ) and refractive index (n p ); identifying at least one peak associated with a colloidal particle from the joint distribution; and comparing the identified at least one peak with a colloidal fingerprint library. 2. The method of claim 1 , wherein the sample size is at least 10,000 colloidal particles. 3. The method of claim 1 , further comprising reconstituting the colloid in the fluid prior to analyzing. 4. The method of claim 1 , further comprising applying a calibration to the determined priority to correct for sampling bias. 5. The method of claim 1 , further comprising identifying the presence of one or more colloidal populations based upon the identified at least one peak. 6. The method of claim 1 , further comprising identifying a colloidal fingerprint of the material. 7. The method of claim 6 , wherein the identified colloidal fingerprint is the most probable fingerprint associated with the material. 8. The method of claim 7 , further comprising comparing the identified most probably fingerprint with a fingerprint key. 9. The method of claim 7 , further comprising identifying a plurality of bites of information encoded by the identified most probable fingerprint. 10. A computer-implemented machine for colloidal fingerprinting comprising: a processor; a holographic microscopy system; a sample stage for receiving and flowing a material; and non-transitory computer-readable medium operatively connected to the processor and the holographic microscopy system and containing computer instructions stored therein for causing a computer processor to: analyze a colloidal sample having a plurality of particles using holographic light microscopy by: illuminating the colloidal sample within a microfluidic channel; and generating a plurality of holograms for one or more particles of the plurality of particles in the colloidal sample; determining, by holographic light microscopy, particle radius and refractive index of the particles of the colloidal sample; and determining a colloidal fingerprint of the material. 11. The computer-implemented machine of claim 10 , wherein the computer code configured to determine a joint distribution of particle radius (a p ) and refractive index (n p ). 12. The computer-implemented machine of claim 10 , wherein the colloidal sample includes non-porous colloidal particles. 13. The computer-implemented machine of claim 10 wherein the identified fingerprint is the most probable fingerprint associated with the colloid. 14. The computer-implemented machine of claim 10 , further comprising comparing the identified most probably fingerprint with a fingerprint key. 15. The computer-implemented machine of claim 10 , further comprising identifying a plurality of bites of information encoded by the identified most probable fingerprint. 16. A method for colloidal fingerprinting a material, comprising: analyzing a plurality of samples using holographic light microscopy; determining using holographic light microscopy a joint distribution of particle radius (a p ) and refractive index (n p ) for the material; and encoding bites of information by addition of a plurality of colloidal fingerprint populations, each with a known joint distribution of particle radius (a p ) and refractive index (n p ), from a colloidal fingerprint library to the material to create a fingerprinted material, each of the plurality of library colloidal fingerprint populations having a unique joint distribution of particle radius (a p ) and refractive index (n p ); wherein the fingerprinted material has a joint distribution of particle radius (a p ) and refractive index (n p ) based upon the samples' determined joint distribution and the known joint distribution.