Latest news with #TomorrowShapers
Euronews
16-06-2025
- Science
- Euronews
Meet the inventors helping farmers keep fruit fresh longer
Each year, over one billion tonnes of food go to waste while hundreds of millions still face hunger. For Ugandan entrepreneurs Sandra Namboozo and Samuel Muyita, this crisis has a personal dimension. Growing up in farming families, they witnessed first-hand how quickly harvested fruit could spoil before reaching markets – leaving farmers with major losses and little return for their hard work. Motivated by this challenge, the pair developed a solution rooted in both science and sustainability. Their invention, a biodegradable sachet made from plant-based compounds, can extend the shelf life of fruit by up to 30 days. This breakthrough has placed them among the top ten selected innovators – called Tomorrow Shapers – of the Young Inventors Prize 2025, awarded by the European Patent Office (EPO). 'What brought us together was the fact that both of us came from an agricultural background,' says Muyita. 'We had identified and related with a problem that was at hand, so it was easy for us to team up and come up with a solution, which is Karpolax.' Their company, Karpolax, uses volatile organic compounds (VOCs) extracted from plants like cloves, lemongrass, eucalyptus and wintergreen to slow the ripening process and protect fruit from mold and bacteria. Unlike conventional synthetic preservatives, these sachets are natural, safe, and designed to release active ingredients gradually and specifically for different fruit types. In pilot tests conducted with Uganda's National Agricultural Research Organization, mangoes stored with the sachets stayed fresh for 33 days – triple the shelf life of untreated ones. The product has since been tested on bananas, apples, and oranges, and new versions are being developed for pineapples, berries, and capsicum. 'It's basically a sachet that we put in fruit boxes during storage or delivery,' Namboozo explains. 'It releases an active ingredient that helps preserve the fruit for an extra 30 days.' The duo met while studying at Makerere University in Kampala and launched Karpolax in 2020. Their vision was clear from the start: make scientific innovation directly useful to the people who need it most. 'Farmers are one of our biggest customer groups,' says Namboozo. 'We wanted to use our knowledge and technical skills to develop something that would not just end on a paper in a lab but really be used by somebody.' By 2023, their product had reached over 100 farmers, 20 exporters, and 250 market vendors. With plans to expand across East Africa—including Kenya and Rwanda—the team is scaling up production and product lines. Their work directly supports the UN Sustainable Development Goals, particularly SDG 2 (Zero Hunger) and SDG 12 (Responsible Consumption and Production), by offering a low-cost, eco-friendly way to reduce food loss and increase farmer incomes. 'Starting from zero, you need to source for that funding yourself,' Muyita recalls. 'We had some supervisors from the university who supported us and made us feel confident that we could succeed.' With growing recognition and real-world impact, their ambition is only increasing. 'Our vision is to be the world's leading fruit and vegetable preservation company,' says Namboozo. And for other young innovators, Muyita offers a simple message of encouragement: 'Believe in yourself. When you believe in yourself, believe in the fact that you have what it takes to make it. You will indeed make it.'
Euronews
13-06-2025
- Science
- Euronews
Paper-based devices offer a greener future for consumer electronics
Every year, millions of tonnes of electronic waste end up in landfills, largely because small devices are built from materials that are nearly impossible to separate and recycle efficiently. At just 24 years old, Austrian industrial designer Franziska Kerber is working to change that: She has developed PAPE, a sustainable, paper-based alternative to plastic and fibreglass used in the casings of small electronic devices. Thanks to her work on PAPE, Kerber has been recognised as one of the top ten winners – called Tomorrow Shapers – of the 2025 Young Inventors Prize, awarded by the European Patent Office. 'Electronic waste is the fastest-growing waste stream worldwide and most electronic products are not designed in a way for them to be recycled,' Kerber explained. 'So I was aiming to create a product that not only improves recyclability, but creates a full circular system around it.' Unlike conventional plastics, which often trap valuable materials inside a device, PAPE is designed to dissolve in a targeted process. This allows manufacturers to retrieve electronic components without the need for shredding or chemical separation. PAPE is made from unused paper fibres, is durable and biodegradable, and was designed from the ground up with material recovery in mind. Kerber's commitment to sustainable design was shaped by both family and education. Her father, a physicist and award-winning inventor, introduced her to dissolvable electronics at a young age. While studying industrial design at FH Joanneum, she became increasingly focused on circular systems and material reuse – realising that solving e-waste requires more than just one recyclable component. 'Even if researchers create dissolvable, recyclable circuit boards, it doesn't really change anything if the rest of the product just ends up as waste again. The whole design has to evolve – otherwise, we're just shifting the problem instead of solving it,' she said. To develop PAPE, Kerber experimented with compressed paper fibres, refining the product through iterations that tested heat resistance, airflow, and durability. PAPE was specifically created for small consumer electronics like WiFi routers and smoke detectors, which are widespread but rarely recycled properly. 'I hope that this invention reaches a point when people talk about which WiFi router they should buy next, they will think about PAPE because it's just the better sustainable option and I love the design,' Kerber added. She is now working with startups and companies developing recyclable PCBs to bring PAPE to the market, aiming to shift the consumer electronics industry toward truly circular solutions. Moreover, Kerber's work contributes directly to United Nations Sustainable Development Goals SDG 9 (Industry, Innovation, and Infrastructure) and SDG 11 (Sustainable Cities and Communities) – highlighting how thoughtful design can reduce waste and help shape a more sustainable future. The European Space Agency (ESA) isn't ruling out programme cuts or freezes if proposed budget cuts to the American space agency NASA are passed by the US Congress later this year. NASA's 2026 technical budget request, which was released last week, details possible cuts to 19 European space research programmes and could impact key technologies that ESA supplies to American Moon missions. The bill still needs Congress' approval, likely to come this autumn. Josef Aschbacher, ESA's director general, told journalists on Thursday that the council is 'doing its homework' to analyse what the impacts of possible NASA budget cuts could be and how investments made by its member states could be 'used in the most efficient way,' to respond. Aschbacher assured that no cuts or cancellations were coming until the US "finalised" its position, but that no matter the decision made by Congress, ESA would be "ready" and "well-prepared" to react. Carole Mundell, ESA's director of science, said the agency had determined 19 research projects could be impacted by the proposed NASA budget cuts. Mundell said ESA and its international partners could mitigate the damage to all but three of them: the Laser Interferometer Space Antenna (LISA), a space probe that measures gravitational waves, Envision, ESA's first mission to Venus to measure its different atmospheres, and NewAthena, the world's largest X-Ray observatory. LISA and Envision have already been approved by the ESA council for funding, and NewAthena will come before the council but is expected to pass in 2027. ESA also supplies NASA with certain key parts for the NASA-led Artemis missions that would see humans return to the surface of the Moon for the first time since the 1960s. The ESA builds European Space Modules (ESMs) that provide electricity and oxygen to Orion, the spacecraft picked by NASA for the Artemis missions to the surface of the Moon. The ESA is also in charge of the Argonaut, Europe's lunar lander programme that would ultimately support these missions. It is also contributing three key elements for Gateway, the first international space station to be built around the Moon. The proposed NASA budget said that it will sustain funding for the Artemis II mission, scheduled for early 2026, and the Artemis III mission in 2027, but future missions would cancel the Gateway and retire Orion in the name of finding a more 'sustainable and cost-effective' lunar exploration strategy. Daniel Neuenschwander, ESA's director of human and robotic exploration, said the agency continues to fulfill its Gateway and ESM contracts with NASA. Even if cuts are approved, Argonaut and these European capabilities would still be used to support ESA missions, he added. Neuenschwander said ESA was now exploring with industry how some replacement technologies could be built in the EU. For example, the NASA cuts target the Rosalind Franklin ExoMars Rover mission, an ESA programme that drills down to the surface of the Red Planet to dig up organic material for further scientific study. NASA supplies three parts of the rover's technology, including the Mars Organic Molecule Analyzer (MOMA), an astrobiology instrument that does the sample extraction, and an americium radioisotope heater unit (RHU) to power the vehicle. Both technologies are not currently available to be produced in Europe, Neuenschwander said, but that engagement is starting to build them. The RHU in particular can also be used for future ESA lunar surface exploration missions, he added. Neuenschwander said ESA could rely on other partners, like the Canadian Space Agency (CSA), in the short term to supply technologies like the MOMA or RHU, but ultimately the goal is to build the necessary technology in Europe.
