Generation and analysis of chemical compound libraries

The invention claimed is: 1. An instrument, comprising: samples located between a working electrode and a counter electrode assembly comprising a plurality of counter electrodes, the samples each including one or more analytes, each of the analytes including a semiconductor, a distance between the working electrode and the counter electrode assembly being less than 10 mm, and one or more light sources that each act as a source of one or more light beams that are each incident on one or more of the samples. 2. The instrument of claim 1 , wherein the distance between the working electrode and the counter electrode assembly is less than 5 mm. 3. The instrument of claim 1 , further comprising: an electrolyte between the working electrode and the counter electrode assembly, the electrolyte including a redox couple. 4. The instrument of claim 3 , wherein the redox couple undergoes a reversible electrochemical oxidation with an exchange current density of at least 1 mA cm −2 for at least one of the counter electrodes of the plurality of counter electrodes. 5. The instrument of claim 3 , wherein the electrolyte is in direct physical contact with the samples and the working electrode. 6. The instrument of claim 5 , wherein the electrolyte and the samples exclude catalysts. 7. The instrument of claim 1 , wherein the working electrode is optically transparent and the one or more light beams pass through the working electrode before being incident on the samples. 8. The instrument of claim 1 , wherein the counter electrode assembly includes a single counter electrode. 9. The instrument of claim 1 , further comprising electronics that generate a value for a rate parameter that indicates a level of an electrical current through one of the counter electrodes. 10. The instrument of claim 9 , wherein the electronics correct the rate parameter for effects of dark current. 11. The instrument of claim 10 , further comprising electronics that generate a value for a conversion parameter that indicates a level of photocurrent through one of the samples upon which one of the light beams is incident. 12. The instrument of claim 10 , wherein the electronics correct the conversion parameter for effects of a parasitic reaction that occurs in the electrolyte. 13. The instrument of claim 1 , wherein the samples are attached to the working electrode such that the samples are immobilized relative to the working electrode. 14. The instrument of claim 1 , wherein at least a portion of the samples each includes one or more metal elements and oxygen.