Plastic pollution poses concerns for the health of people, land and marine species, and the larger ecosystem. There are many causes for plastic pollution, some of which involves poor management of plastic waste, lack of incentive to sort plastic waste, and recycled plastic being unclaimed which leads to it being landfilled or incinerated. Furthermore, plastic waste is projected to increase in many parts of the world while landfill and incineration are becoming less viable due to their increasing environmental impact and the limitted land space. The goal of thesis project is to continually reuse and recycle post-consumer plastic in a way that does not reduce its material value or its economical value while providing meaningful services to society. To develop a solution that can accomplish this goal, the issues, existing solutions, emerging technologies, and policies were documented. These were further investigated by comparing different waste management options, deriving advantages and disadvantages of different methods of using recycled plastic, and measuring the plastic system against Nature's Unifying Patterns and Cradle to Cradle. Through this investigation, the possible places in the plastic sytem in which an improvement to existing solution or new solutions can occur, called the leverage points, were identified. These possible solutions were organized and developed into a final solution known as the Skeleton-Skin Modules (SSM). The Biomimicry Design Lens was used to develop the SSM product. The SSM product was evaluated using Life Cycle Assessment. The SSM product showed large environmental savings when compared to the waste management options and other products. Due to the design of reusability and disassembleability, the SSM product showed further environmental and economical savings.