Explore unique uses of biodegradable polymers in healthcare, electronics, and fashion, and uncover potential in new global markets. Innovative applications and regional expansion are redefining the ...

Biodegradable polymers, particularly those synthesised from renewable resources, are emerging as vital alternatives to conventional, fossil‐derived plastics. Their naturally occurring degradation ...

Global industrial value chains are undergoing a major structural shift driven by waste reduction policies, lifecycle accountability frameworks, and corporate ESG compliance mandates. Biodegradable ...

While natural polymers, including starches and cellulose, are still commonly used in biomedical research, the utilization of synthetic biodegradable polymers in pharmaceutical and tissue-engineering ...

Demand for biodegradable polymers has been rising as a result of environmental concerns regarding the use of nonrenewable materials. Styrofoam and other plastics are among the most produced materials ...

From touch-sensitive smartphone screens to fitness wearables and wireless earbuds, electronics are becoming ever more integrated into our daily lives—and smaller, lighter, and more flexible in the ...

Pollution affects human health and the environment in many ways. Air, water, and land pollution continue to damage ecosystems, with conventional materials—especially plastics—being a primary ...

Biodegradable polymers are a type of polymer that exists both naturally and can be synthesized in laboratories. This special class of polymer is broken down naturally by microbial processes to produce ...

A new study led by Colorado State University Distinguished Professor Eugene Chen outlines a path to creating advanced, recyclable plastics. Published in Nature, the study describes a breakthrough ...

Polymers come in many forms. Many people know about the synthetic human-made polymers seen in everyday life - commonly in the form of plastic products - but there is also an abundance of natural and ...