Ben Hubbard’s Post

💡 MEMS air flow sensors can be found across a wide array of industries and systems. Comment below in which application you are using them. #HVAC #automotive #semiconductor #medical #datacentre

This news is bound to send a jolt of electricity running through you: An electronics company says its new charger can get a phone battery from empty to full in 4 minutes, 30 seconds.⁠ ⁠ Chinese firm Realme claimed its "320 W SuperSonic Charge" can fill a battery cell up to 26 percent in one minute and over 50 percent in two minutes. At a live demonstration this week, the phone gained one percentage point of charge every 2.65 seconds.⁠ ⁠ The company said its technology works by charging multiple battery cells simultaneously, instead of the one at a time that is standard among phone manufacturers. It also relied on an ungodly amount of wattage.⁠ ⁠ For now, though, this tech remains much more lab innovation than commercial product. The company hasn't suggested when regular consumers might be able to get their hands on it.⁠ ⁠ And even if it does become available, it might not be a good idea to use.

Photopatternable, degradable, and performant polyimide network substrates for e-waste mitigation "The continuous accumulation of #electronic_waste is reaching alarming levels, necessitating sustainable solutions to mitigate environmental concerns. Fabrication of commercial #electronic_substrates also requires wasteful high heat. To this end, we develop a series of reprocessible electronic substrates based on #photopolymerizable_polyimides containing degradable ester linkages. Five imide-containing #diallyl_monomers are synthesized from readily available feedstocks to produce high-quality substrates via rapid photopolymerization. Such materials possess exceptional thermal (thermal conductivity, K = 0.37–0.54 W m−1 K−1; degradation temperature, Td > 300 °C), dielectric (dielectric constant, Dk = 2.81–3.05; dielectric loss, Df < 0.024), and mechanical properties (Young's modulus, ∼50 MPa; ultimate elongation, dL/L0 > 5%) needed for flex electronic applications. We demonstrate mild #depolymerization via #transesterification reactions to #recover and #reuse the functional components." Caleb J. Reese, Grant Musgrave, Chen Wang, Department of Materials Science and Engineering, University of Utah, Salt Lake City, Utah, USA; Jitkanya (Jenn) Wong, Wenyang Pan, John Uehlin, Mason Zadan, Omar Awartani, Ph.D., Reality Labs at Meta, Redmond, USA; Thomas Wallin, MIT Department of Materials Science and Engineering (DMSE), Massachusetts Institute of Technology, Cambridge, USA. https://lnkd.in/eukj5AxP

New substrate material for flexible electronics could help combat e-waste Electronic waste, or e-waste, is a rapidly growing global problem, and it’s expected to worsen with the production of new kinds of flexible electronics for robotics, wearable devices, health monitors, and other new applications, including single-use devices. A new kind of flexible substrate material developed at MIT, the University of Utah, and Meta has the potential to enable not only the recycling of materials and components at the end of a device’s useful life, but also the scalable manufacture of more complex multilayered circuits than existing substrates provide. https://lnkd.in/g-_yTN-6 #nanotechnology #electronics #materialsscience #greentech

Experience Unmatched Power and Portability with Revolutionary LiPo Battery Technology 1,Get ready to upgrade your electronics with the cutting-edge performance of lithium polymer batteries. LiPo batteries represent the future of portable power, combining high energy density and ultra-lightweight construction in an amazingly compact package. 2,Unlike traditional battery chemistries, LiPo cells pack far more punch per ounce. This means longer run-times, reduced weight, and unmatched energy capacity for all your mobile devices and gadgets. From smartphones and tablets to RC models and camera gear, LiPo batteries deliver unrivaled runtime between charges. 3,But the advantages don't stop there. LiPo batteries can be manufactured in almost any shape and size, allowing seamless integration into the sleek designs of modern electronics. Their superior cycle life translates to years of reliable service. 4,Safety is also a priority with LiPo cells, engineered with built-in overcharge, overdischarge, and temperature protection circuits. Advanced lithium polymer chemistry is also environmentally friendly and 100% recyclable. 5,Stop being tethered to the wall outlet and inferior battery technologies. Experience the freedom, convenience, and sheer power of LiPo batteries. Upgrade your gear today with lithium polymer cells and get maximum mobility for work and play! www.zkzzjt.com

From Greenpeace International (with my complete support): "In a digitized world, smartphones, VR, and AI bring us undeniable convenience and efficiency. However, electronics manufacturing, including chipmaking, is one of the fastest-growing sources of global emissions. According to Greenpeace East Asia, by 2030, semiconductor manufacturing alone is on track to consume 237 terawatt hours (TWh) of electricity globally, close to Australia’s annual electricity consumption in 2021". In the age of AI, it’s more urgent than ever that the tech suppliers clean up their act! #Renewables #AI #FossilFuels #CarbonTarget #GHGs #LG #Pegatron #SamsungElectronics #TSMC #SKhynix #LuxsharePrecision #Goertek #Foxconn #AUO #BOE #UMC #Innolux #Greenpeace #EastAsia #TechSuppliers

Betavolt, a Chinese startup, has developed a nuclear battery that could power your smartphone for 50 years without needing a single charge! This tiny battery uses atomic energy, converting it into electricity through a safe and reliable process. It's designed to handle extreme temperatures, from -60°C to 120°C, and doesn’t catch fire or explode if damaged—no more worries about overheating batteries! What’s even more impressive is that it's environmentally friendly. After its life cycle, the battery's material becomes non-radioactive and harmless. It’s perfect for devices like medical implants, smartphones, and even drones that can fly endlessly. This innovation could change how we think about power, giving us long-lasting, reliable energy in our daily gadgets. Imagine never having to charge your phone again! This breakthrough could soon be available, making life easier for everyone, from tech enthusiasts to everyday users. Follow Us On Facebook: https://lnkd.in/gWdmrXJT Follow Us On Instagram: https://lnkd.in/gYf2idsV Follow Us On LinkedIn: https://lnkd.in/gwvUh4_7 #sif #scientificintelligenceforum #bangladesh #news #china #worldnews #technews #innovation

Could Micro-Cooling Chip Fans Be the Next Big Thing in Tech? In the relentless pursuit of efficiency and miniaturization, xMEMS Labs is breaking new ground with their introduction of tiny fans built directly onto microchips. This innovation promises significant advancements in micro-cooling technology, potentially transforming how we manage heat in compact and high-performance electronics. These miniature fans offer a novel solution to one of the tech industry's most persistent challenges: maintaining optimal operating temperatures without compromising space or performance. As electronic devices continue to shrink in size while increasing in power, effective cooling solutions are becoming indispensable. The implications for this technology are vast. From enhancing the longevity of devices to improving the reliability and performance of everything from smartphones to advanced computing systems, xMEMS Labs' micro-cooling fans could represent a revolution in thermal management. For businesses looking to stay ahead in an increasingly competitive market, integrating cutting-edge solutions like these could provide a crucial edge. Automation tools such as those offered by make.com can streamline this integration, ensuring that businesses maximize their efficiency and innovation potential. Stay ahead in this rapidly evolving landscape. Visit https://workflo.agency for your edge in automation. Book a free consultation to discover how automation can transform your business processes. Don’t be left behind.

Meet the world's first battery-free phone. In 2017, researchers at the University of Washington created a battery-free cellphone that harvests energy from ambient radio signals and light, eliminating the need for chargers and cords. The prototype could perform essential phone functions—like making Skype calls and placing callers on hold—using off-the-shelf components. Unlike conventional phones that convert sound into digital data, this device uses vibrations from the microphone and speaker to encode speech patterns directly into radio signals, drastically reducing its power needs. Users can switch between listening and transmitting modes with a button, allowing for seamless real-time conversations. The phone gathers power from radio signals within 31 feet of a base station or from light using a rice-sized solar cell, which extends the range to 50 feet. This innovation offers continuous operation, unlike other energy-harvesting devices that require downtime to recharge. I’m interested to see how this revolutionises the phone markets. Image: University of Washington #IntelliVoice

Are you leveraging the full potential of #Silver in your #Investmentportfolio? 💡 According to Sprott, silver stands as a critical asset, second only to #oil in its vast array of global applications: it's a cornerstone of several high-growth sectors. Silver is integral to the renewable energy sector, with photovoltaic cells in solar panels requiring approximately 20 grams of silver per panel. In the electric vehicle industry, each vehicle uses between 25 to 50 grams of silver, underscoring its role in the green technology revolution. Moreover, silver's significance extends to advanced technologies such as semiconductors, sensors, and LIDAR systems used in AI-enabled transport. In healthcare, conductive silver nanoparticles are utilized in wearable electronic skin patches for cutting-edge diagnostics. Even in everyday technology, such as smartphones, silver is a crucial component, with each phone containing around 0.34 grams. Given its wide-ranging applications and growing demand, silver might present a compelling opportunity for investors looking to diversify their portfolios with a strategically vital asset. Source: https://bit.ly/3ZsUgUP #interestingfact