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               AC Adapter
              2018-04-14
            <p class="p1" style="box-sizing: border-box; margin: 0px 0px 10px; font-family: Arial; padding: 0px; font-size: 14px; line-height: 24px; color: rgb(86, 86, 86); font-weight: bold;"> Scientists from the University of Central Florida (UCF) have created a supercapacitor battery prototype that works like new even after being recharged 30,000 times. The research could yield high-capacity, ultra-fast-charging batteries that last over 20 times longer than a conventional lithium-ion cell. "You could charge your mobile phone in a few seconds and you wouldn’t need to charge it again for over a week," says UCF researcher Nitin Choudhary.</p> <p class="p1" style="box-sizing: border-box; margin: 0px 0px 10px; font-family: Arial; padding: 0px; font-size: 14px; line-height: 24px; color: rgb(86, 86, 86); font-weight: bold;"> Supercapacitors can be charged quickly because they store electricity on the surface of a material, rather than using chemical reactions. That requires "two-dimensional" material sheets that can hold lots of electrons. However, much of the research, including that by Henrik Fisker and UCLA, uses graphene as the two-dimensional material.</p> <p class="p1" style="box-sizing: border-box; margin: 0px 0px 10px; font-family: Arial; padding: 0px; font-size: 14px; line-height: 24px; color: rgb(86, 86, 86); font-weight: bold;"> Yeonwoong Eric Jung from UCF says it’s a challenge to integrate graphene with other materials used in supercapacitors, though. That’s why his team wrapped 2D metal materials (TMDs) just a few atoms thick around highly-conductive 1D nanowires, letting electrons pass quickly from the core to the shell. That yielded a fast charging material with high energy and power density that’s relatively simple to produce. "We developed a simple chemical synthesis approach so we can very nicely integrate the existing materials with the two-dimensional materials," Jung says.</p> <p class="p1" style="box-sizing: border-box; margin: 0px 0px 10px; font-family: Arial; padding: 0px; font-size: 14px; line-height: 24px; color: rgb(86, 86, 86); font-weight: bold;"> The research is in early days and not ready for commercialization, but it looks promising. ""For small electronic devices, our materials are surpassing the conventional ones worldwide in terms of energy density, power density and cyclic stability," Choudhary said.</p> <p class="p1" style="box-sizing: border-box; margin: 0px 0px 10px; font-family: Arial; padding: 0px; font-size: 14px; line-height: 24px; color: rgb(86, 86, 86); font-weight: bold;"> Jung calls the research "proof-of-concept," and the team is now trying to patent its new process. If commercialized, it could allow for EVs that can be charged in minutes rather than hours, smartphones that can be charged in seconds, and home energy storage solutions will drastically reduce our reliance on fossil fuels.</p> <p class="p2" data-filtered="filtered" style="box-sizing: border-box; margin: 0px 0px 10px; font-family: 宋体; padding: 0px; font-size: 14px; line-height: 24px; color: rgb(68, 68, 68);">  </p> <p style="text-align: right;"> Penny<br /> 2018-04-13<br /> <br />  </p> <p style="text-align: center;"> <span style="margin: 0px; padding: 0px; color: rgb(68, 68, 68); font-family: 宋体; font-size: 8px;"><span style="margin: 0px; padding: 0px; color: rgb(255, 240, 245); font-family: Verdana; background-color: rgb(255, 0, 0);"> Disclaimer: This article comes from individual, KRECO has the right of final interpretation. <br data-filtered="filtered" style="margin: 0px; padding: 0px;" /> </span></span><span style="margin: 0px; padding: 0px; font-size: 14px; color: rgb(255, 240, 245); font-family: Simsun; background-color: rgb(255, 0, 0);"> 声明:本文来自个人,KRECO公司拥有最终解释权! </span></p>