Latest news with #sustainableMaterials
Japan Times
6 days ago
- Health
- Japan Times
Scientists in Japan develop plastic that quickly dissolves in seawater
Researchers in Japan have developed a plastic that dissolves in seawater within hours, offering up a potential solution for a modern-day scourge polluting oceans and harming wildlife. While scientists have long experimented with biodegradable plastics, researchers from the Riken Center for Emergent Matter Science and the University of Tokyo say their new material breaks down much more quickly and leaves no residual trace. At a lab in Wako, Saitama Prefecture, the team demonstrated a small piece of plastic vanishing in a container of salt water after it was stirred up for about an hour. While the team has not yet detailed any plans for commercialization, project leader Takuzo Aida said their research has attracted significant interest, including from those in the packaging sector. Scientists worldwide are racing to develop innovative solutions to the growing plastic waste crisis, an effort championed by awareness campaigns such as World Environment Day marked on Thursday. Plastic pollution is set to triple by 2040, the U.N. Environment Program has predicted, adding 23-37 million metric tons of waste into the world's oceans each year. "Children cannot choose the planet they will live on. It is our duty as scientists to ensure that we leave them with best possible environment," Aida said. Aida said the new material is as strong as petroleum-based plastics but breaks down into its original components when exposed to salt. Those components can then be further processed by naturally occurring bacteria, thereby avoiding generating microplastics that can harm aquatic life and enter the food chain. As salt is also present in soil, a piece about 5 centimeters in size disintegrates on land after over 200 hours, he added. The material can be used like regular plastic when coated, and the team are focusing their current research on the best coating methods, Aida said. The plastic is non-toxic, non-flammable, and does not emit carbon dioxide, he added.
Yahoo
12-05-2025
- Science
- Yahoo
More brands are turning to biodegradable packaging
As the world confronts the dual challenges of plastic pollution and climate change, biodegradable polymers are emerging as a beacon of hope in the quest for sustainable materials. These environmentally friendly alternatives to conventional plastics are gaining traction across various industries, driven by consumer demand, scientific innovation, and government regulations. The shift towards biodegradable polymers reflects a broader movement to embrace circular economy principles, where materials are designed to return safely to nature without lasting environmental harm. Biodegradable polymers, sometimes referred to as bioplastics, are materials that can decompose into natural elements such as carbon dioxide, water, and biomass, often through microbial activity. Unlike traditional plastics derived from petroleum, which can persist in the environment for hundreds of years, these materials break down over a far shorter time span. Their rising popularity underscores a fundamental rethinking of how materials are sourced, used, and disposed of in modern society. At the heart of biodegradable polymers lies their unique chemical structure. Unlike traditional plastics, whose carbon backbone is highly resistant to degradation, biodegradable polymers contain functional groups such as esters, amides or ethers, which are more susceptible to enzymatic or hydrolytic breakdown. This means that under the right environmental conditions—typically with moisture, oxygen, and microbial presence—these materials can be broken down into non-toxic by-products. There are two broad categories of biodegradable polymers: those derived from renewable biological sources and those synthesised from petrochemicals but engineered to degrade. Polylactic acid (PLA), made from fermented plant starches like corn or sugarcane, and polyhydroxyalkanoates (PHA), produced by bacterial fermentation of sugars or lipids, are among the most well-known bio-based examples. Others, such as polycaprolactone (PCL), are synthetic but designed to decompose under specific conditions. The degradation rate of these materials varies depending on their composition and the disposal environment. For instance, PLA may degrade effectively in industrial composting facilities, but not in home compost or marine settings. As such, appropriate disposal infrastructure remains critical to ensuring that biodegradable polymers deliver their intended environmental benefits. Biodegradable polymers have found a growing number of applications, thanks to ongoing improvements in performance, cost-efficiency, and scalability. In packaging—a sector that accounts for a significant portion of global plastic waste—these materials are increasingly used to produce compostable food containers, films, and bags. Major retailers and food companies have started adopting such solutions to align with sustainability targets and appeal to eco-conscious consumers. In agriculture, biodegradable mulch films offer a promising alternative to conventional plastic sheeting. These films help conserve soil moisture, reduce weed growth, and enhance crop yield, while eliminating the need for costly and labour-intensive removal at the end of the season. Once their function is complete, they naturally degrade into the soil, leaving no residue behind. The medical field is another area witnessing innovation with biodegradable polymers. Their ability to safely disintegrate within the human body makes them ideal for temporary implants, drug delivery systems, and surgical sutures. Polyglycolic acid (PGA) and PLA, for instance, are widely used in bioresorbable stents and controlled-release capsules, offering both clinical efficacy and patient convenience. Even the fashion and textile industries are beginning to experiment with biodegradable fibres, addressing the environmental toll of synthetic textiles that often end up in landfills or the oceans. As consumer awareness grows, brands that embrace truly sustainable materials may gain a competitive edge in a crowded marketplace. Despite their many advantages, biodegradable polymers are not without limitations. One major concern is the misconception that these materials will degrade anywhere, under any conditions. In reality, many require specific industrial composting environments to break down fully, which are not universally available. When disposed of in landfill or in nature, some biodegradable plastics may perform little better than conventional ones, potentially undermining environmental goals. Cost is another barrier. Biodegradable polymers are often more expensive to produce than traditional plastics, mainly due to raw material sourcing and lower production volumes. However, as technology matures and economies of scale are achieved, the price gap is expected to narrow. From a policy standpoint, clearer labelling and regulatory standards are essential to guide both consumers and manufacturers. Misleading claims around biodegradability can lead to confusion and greenwashing. Governments across the globe are beginning to legislate more tightly around plastic usage, which could accelerate the adoption of genuinely biodegradable alternatives. Looking ahead, ongoing research is focused on enhancing the properties of biodegradable polymers—such as strength, transparency, and shelf life—without compromising their environmental credentials. Scientists are also exploring new feedstocks, including algae, food waste, and even captured carbon, to produce next-generation materials that are both sustainable and circular. The rise of biodegradable polymers signals a significant step towards reducing humanity's environmental footprint. While no single material can solve the plastic crisis alone, integrating biodegradable options into a broader suite of sustainable practices can make a tangible difference. With the right blend of innovation, policy, and public engagement, the future of materials science may well be greener than ever. "More brands are turning to biodegradable packaging" was originally created and published by Packaging Gateway, a GlobalData owned brand. The information on this site has been included in good faith for general informational purposes only. 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