Ocean Titans - Riken

Bye-Bye, Microplastics: Inside RIKEN's Breakthrough in Sustainable Materials Video Editor - Euan James-Richards Every year, millions of tons of plastic waste are either burned or end up polluting our oceans and soil. When burned, plastics release vast amounts of carbon dioxide (CO₂) and other greenhouse gases, intensifying global warming. When discarded, they break down extremely slowly into microplastics - tiny particles that have now been detected in water, food and even human blood. These microplastics pose serious risks to ecosystems and human health. Yet, the production of petroleum-based plastics continues to increase, and without strict regulation, the resulting environmental damage will only become more severe. To address this crisis, scientists have developed a groundbreaking alternative - supramolecular plastics. Unlike conventional plastics held together by permanent chemical bonds, these materials are formed through “supramolecular ionic polymerization,” a process that uses reversible molecular interactions, including electrostatic attraction and hydrogen bonding. These materials can be safely broken down into biologically metabolizable monomers when exposed to saline environments, such as seawater or soil. This new class of materials, created by Professor Takuzo Aida and his team at RIKEN and the University of Tokyo, combines strength, transparency and flexibility with complete environmental compatibility. For example, a cellulose-based supramolecular plastic developed by Dr. Yang Hong and Zhenghong Chen is made from renewable plant biomass. Naturally hard and glassy, it can become tough or elastic simply by adding choline chloride, an FDA-approved, biodegradable compound. The resulting material can be molded into durable plastic bags or films that completely dissolve in seawater after use, leaving no microplastic residue behind.