Scientists Discover a Novel Method To Recover Gold From Smartphones, Computers and Other Electronic Waste!

In an age where e-waste is growing as fast as our dependence on technology, a timely discovery emerges from the laboratories of ETH Zurich in Switzerland. Scientists have found a way to extract gold from the discarded circuits of our digital lives using only a by-product of cheese production - a favorite additive of bodybuilders: whey. This remarkable method not only promises a more sustainable future for e-waste recycling but also redefines the ancient alchemy of turning waste into precious metal. Understanding the impact of e-waste ~ E-waste contains hazardous substances such as lead, mercury, cadmium, and many other toxic substances. If these substances are not properly treated, they can pollute soil, water, and air and pose a serious threat to human health and ecosystems. Sustainable electronic waste management ensures proper handling, recycling, and disposal of electronic components. Failure to do so poses a serious threat to ecosystems, wildlife, and human health. Modern Alchemy and the Golden Sponge ~ At the heart of this process is a simple but very effective material: a protein fibril sponge made of 'whey'. Professor Raffaele Mezzenga and his team from ETH Zurich's Department of Health Sciences and Technology say that converting this e-waste into a valuable metal is very efficient, cost-effective, and last but not least ~ environmentally friendly. This is in contrast to traditional e-waste recycling, which consumes a lot of energy and often uses highly toxic chemicals to extract precious metals. Protein fibril sponges are made by denaturing whey proteins under certain conditions to form a gel of protein nanofibrils. After drying, this gel becomes a sponge capable of selectively adsorbing gold ions from a solution of dissolved electronic components. The beauty of this method is its selectivity; While other metals can adhere to the sponge, gold does so more efficiently, making the recovery process both precise and efficient. By absorbing the gold ions, the researchers apply heat to the sponge and start a reduction process that turns those ions into gold. metal flakes. Those flakes are then melted into a gold nugget. Remarkably, the team successfully created a 450-milligram 22-carat gold nugget from components of 20 old computer motherboards, proving the efficiency and scalability of the method. Current treatment methods: 3 pillars of Sustainable E-Waste Management ~ 1. Reduce The most effective way to deal with e-waste is to minimize its generation. Encouraging consumers to buy less, use a longer-term mindset, and promote durable and repairable electronics can significantly reduce electronic waste. In addition, manufacturers should focus on ecological design and develop products that are easier to disassemble, repair, and upgrade, thereby extending their service life. 2. Reuse Extending the life of electronic devices through reuse is a sustainable approach. Companies can create programs to recycle and recycle electronics, making them available to individuals or organizations in need. Donating or selling used equipment, ensuring proper operation and erasing data, promotes waste reduction, and facilitates access to technology for those who might not be able to afford it. 3. Recycling Recycling is an important part of sustainable e-waste management. Creating efficient recycling systems helps collect valuable materials from end-of-life equipment and minimizes the environmental impact of raw materials. Cooperation with certified e-waste recyclers ensures the safe and responsible use of electronics following strict environmental and information security standards. Toward a Greener Future ~ According to the World Health Organization, e-waste is the fastest-growing waste stream on the planet. In 2019 alone, a whopping 53.6 million tons of e-waste were produced worldwide, of which only a paltry 17.4% was collected and recycled. E-waste contains a cocktail of hazardous substances, including lead, mercury, and flame retardants. When these toxins are dumped in landfills or burned, they can leach into soil and water, polluting the environment and endangering human health. The impact of this new technology extends far beyond the confines of the laboratory. By offering a method that uses recycled materials and requires significantly less energy and financial investment, this new type of recycling paves the way for more sustainable practices in the gold recovery industry. In addition, it not only deals with e-waste but also gives new life to the by-products of the food industry. "What I like the most is that we use a by-product of the food industry to get gold from e-waste," Mezzenga said in a press release.  Sustainable e-waste management is important to save the environment and ensure a healthier future. By reducing, reusing, and recycling electronic devices and components, we can minimize the harmful effects of electronic waste. Through cooperation, education, technological development, and global cooperation, companies can reduce emissions and conserve natural resources. The group's future objective is to develop and get the technology ready for market use. While there are other possible sources, the most promising starting product from which they want to extract gold is electronic trash. These are made of industrial waste from processes like producing microchips or gold plating. In addition, researchers plan to investigate the potential for creating protein fibril sponges from other food industry waste materials or byproducts that are rich in protein. This innovation has the potential to drastically alter the way computer garbage—at least waste with significant gold content—is handled. E-waste is rapidly emerging as one of the world's largest unexplored revenue-generating sectors. E-waste entrepreneurs are already generating $85,000 a day by recycling copper and gold from electronic garbage. Over the next two decades, this business will grow significantly, and recyclers will need more effective methods for handling electronic trash. Mezzanga gives them exactly that with their sponge technology.      

Wondering What To Do With Your Old Phone? Try These 6 Innovative Ideas To Put It to Good Use!

There is often a sense of helplessness when we open the drawer to see an old phone staring back at us. We know that it is electronic waste that shouldn’t be thrown into the dustbin, so it lies there in the dark for years. Now the time has come for it to see the light of day! Here are a few good ways to give a new life to your old phone. Storage Unit Making storage space on your old phone is a wonderful additional use for it. You can utilize your old phone as a portable drive by simply transferring your images, videos, files, or other data to it. Navigational Aid Use an outdated phone as a navigational aid rather than draining the battery of your phone. Use  Google Maps or Apple Maps on your old phone while driving by simply mounting it on a phone holder in your car or bicycle. Car Camera You can use an outdated phone as a dash camera if it still has a functional camera. You may do this by installing your old phone on a phone holder in your car and downloading any dash camera app from the Play Store or App Store. It will come in handy in any uncertain situation where you might need video recording. Recycle There are websites like Cashify. in, Recycledevice.com, or Namoewaste.com where you can dispose of your old phones if they are not at all functional. All of these websites provide door-to-door e-waste collection services across India so that your outdated phone may be delivered to recycling facilities where some parts can be retrieved for reuse or ecologically disposed of. Sell or donate Instead of keeping your old phone for years if you know someone who needs one, donate it to them. You can also sell your old phone on the internet or in offline markets  To get money and purchase a brand-new device.