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As energy needs grow ever greater in today's world, many scientists are investigating possible replacements for fossil fuels as an energy source. The use of hydrogen (H2) gas in particular is undergoing a significant amount of research, but a major obstacle in the use of H2 for green, environmentally-friendly fuel is the energetic and chemical requirement to synthesize the gas. A possibility in satisfying current and future H2 production needs is the use of photocatalytic reactions, where a light-absorbing substance acts as a catalyst in shuttling electrons from a donor to protons that are reduced into H2. Previous research conducted at BYU found such a system where platinum nanoparticles bound to ferritin catalyzed the photoreaction of methyl viologen to reduce protons in an organic acid, which offered a one hundred-fold increase in H2 production efficiency over photocatalytic reactions catalyzed by bulk platinum. We are reporting on our efforts to optimize the synthesis of the platinum nanoparticles bound to ferritin that are used in this photocatalytic system and how we characterize these nanoparticles. *We'd like to thank the Brigham Young University Physics Department and the National Science Foundation (grant no. 1757998) for their generous funding. To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2018.4CS.J03.3