Flash Joule heating is an energy-efficient electric heating method that is applied to materials synthesis, waste upcycling and environmental remediation. This Review discusses the fundamentals and use of flash Joule heating, its scalability and its sustainability compared with industrially used processes. ...
Adv Mater:Machine Learning Guided Synthesis of Flash Graphene.pdf 一、亮点/创新点 本篇文献的亮点/创新点包括: (1)使用机器学习(ML)模型来探索快速焦耳加热(flash Joule heating)过程中将无定形碳转化为石墨烯纳米晶的驱动因素; (2)通过特征重要性分析和决策树,揭示了起始材料选择和闪电焦耳加热合成中随机电流...
This technique produces graphene faster and at a larger scale than previous methods. Paul Advincula, a Rice doctoral Alumni and Lead Author of the Study The Rice University research team has previously applied this Flash Joule heating method to various projects, including the synthesis of hybrid car...
(1)利用闪蒸焦耳加热(Flash Joule Heating, FJH)技术,可以将几乎任何碳基前体转化为大量的石墨烯,这种方法对于批量生产石墨烯来说具有潜力。 (2)研究了由碳黑生成的闪蒸石墨烯(Flash Graphene, FG)的形态和性质,发现FG部分由涡旋堆叠的FG(turbostratic FG, tFG)构成,这些tFG层之间存在旋转失配。 (3)通过调控FJH的...
Flash Joule heating is an energy-efficient electric heating method that is applied to materials synthesis, waste upcycling and environmental remediation. This Review discusses the fundamentals and use of flash Joule heating, its scalability and its sustainability compared with industrially used processes. ...
Rice University chemists working with researchers at the Ford Motor Company are turning plastic parts from "end-of-life" vehicles into graphene via the university's flash Joule heating process.
demonstrated many years ago using basic Scotch tape, producing grams or even kilograms of it in a scalable industrial process seemed like a pipedream — until recently. As[Tech Ingredients] demonstrates in a new video, the technique of flash Joule heating of carbon may enable industrial graphene...
flash Joule heatinggraphenematerials sciencemass synthesisscalable productionFast, mass, and lowヽost production of high﹒uality graphene, which is alluring, remains a great challenge, even though some approaches have shown potential for mass synthesis of graphene. Very recently a great breakthrough was...
ACS Nano:Heteroatom-Doped Flash Graphene.pdf 一、亮点/创新点 本篇文献的亮点/创新点包括: (1)无催化剂和无溶剂的直接合成方法:报道了一种无催化剂、无溶剂的直接合成方法,通过闪蒸焦耳加热(Flash Joule Heating, FJH)直接合成了各种掺杂异原子的石墨烯,这为大批量、高纯度的掺杂石墨烯合成提供了新途径。
Recently, scientists have been experimenting with another promising technique, known as "flash joule heating," to convert more or less any carbon-containing material into graphene. While not yet ready for prime time, it could prove a significant way of producing graphene in the future. Further ...