TAGS: Sustainability / Natural Coatings
KAIST announces that a joint research team tackled the challenge of balancing packaging performance and sustainability. They successfully developed a sustainable, marine biodegradable, high-performance paper coating material.
The team is led by Professor Jaewook Myung of the Department of Civil and Environmental Engineering, Professor Hanseul Yang of the Department of Life Sciences, and Professor Jongcheol Seo of the Department of Packaging and Logistics at Yonsei University.
Coating Paper with Biodegradable Plastic
Plastic pollution presents a global challenge that must be solved. In particular, packaging accounts for 30-50% of the total plastic consumption. While paper packaging is eco-friendly, it lacks crucial functionalities like moisture resistance and strength. Traditional coating materials exacerbate plastic pollution, prompting the need for sustainable alternatives.
Polyethylene (PE) and ethylene vinyl alcohol (EVOH) are typically used as coating materials. It is to improve the low-barrier properties of paper packaging. However, these substances do not decompose and worsen microplastic pollution when disposed of in the natural environment. In response to this problem, packaging materials made from bio-based substances and biodegradable plastics have been developed. But in most cases, as the packaging performance improves, the biodegradability diminishes rapidly.
The research team utilized boric acid-crosslinked poly(vinyl alcohol) (PVA), a biodegradable plastic, to coat the paper. Thereby enhancing the biodegradability, barrier properties, and strength of paper. The resulting coated paper exhibited superior performance compared to conventional plastics. It exhibited excellent barrier properties and physical strength, even in humid conditions.
Biodegradability & Biocompatibility Examination
The team also conducted an in-depth examination of biodegradation and biocompatibility to systematically evaluate the sustainability of the newly developed coated paper. Biodegradation was assessed by simulating the marine environment. It is known for its challenging biodegradability conditions.
The team employed a respiratory system-based bioreactor. It measured the degree of carbon mineralization into carbon dioxide. After 111 days of biodegradation, it was found that the coated papers achieved 59-82% biodegradation depending on the coating component. The phenomenon in which marine bacteria are decomposing the coating material was captured through a scanning electron microscope.
In addition, in vitro biocompatibility was confirmed through human embryonic kidney and mouse embryonic fibroblast cells, as well as high in-vivo biocompatibility of the coated paper was verified through mouse experiments.
Coating Strategy to Improve Packaging Performance
Through this study, the joint research team proposed a coating strategy. It can improve packaging performance while upholding sustainability to address the drawbacks of paper packaging. The boric acid-crosslinked PVA-coated paper eliminates the need for artificial composting conditions or sewage treatment facilities.
The newly coated paper is biodegradable in natural environments and characterized by low toxicity. It does not exacerbate environmental pollution when accidentally discarded. Thus, it presents a sustainable substitute for plastic packaging materials.
Professor Jaewook Myung at KAIST, who led the sustainability study of coated paper, said, "
The development of a marine biodegradable high-performance paper coating is the result of combining the innovative technologies of three leading research teams in each field. We will continue to develop sustainable materials with excellent performance.”
Professor Jongchul Seo of Yonsei University, who led the research on the development of high-performance paper coating, said, “
Through this research, we have developed a sustainable paper packaging technology that can replace non-degradable plastic packaging, and we expect the research outcome will be applied in industry.”
Source: Korea Advanced Institute of Science and Technology (KAIST)