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Bio-sourced and biobased polymers are of interest for the development of sustainable materials. Currently, petroleum-based polymers are employed in many materials applications. However, environmental concerns associated with their degradation or incineration, potential cross-contamination during recycling, as well as consumer toxicity risks are problematic. Bio-sourced polymers may reduce these risks and be an alternative platform to address these challenges. Soybean-derived polymers, made from acrylated soybean oil, are one example of bio-sourced alternatives to explore for emerging applications. However, due to their complexity and the long hydrocarbon tail on the repeat unit, the impact of integrating soy-bean derived polymers with other entities is not yet fully understood. In this work we show the impact of integrating soybean-derived monomers into photopolymer resins. Using Fourier-transform Infrared Spectroscopy (FTIR) we characterized the kinetics of polymerization of the soybean derived photopolymer resins. We also investigated thermochemical behavior via dynamic mechanical analysis (DMA) and determined contact angle and surface properties using a goniometer. Dog bone samples were created to complete tensile strength testing as well. With these analyses we aim to better understand the properties of acrylated soybean oil polymer systems formed via photopolymerizations. Similar platforms are used in many coating applications, so identifying how we could introduce bio-sourced materials would have a major impact as polymers derived from soybean oil are more abundant, stable, and sustainable. Future and ongoing work is looking at further understanding how acrylated soybean oil can function as a polymer platform, with the overarching goal of integrating these materials into high-use applications.