Xiangdong Zhu, Litao Lin, Mingyue Pang, Chao Jia, Longlong Xia, Guosheng Shi, Shicheng Zhang, Yuanda Lu, Liming Sun, Fengbo Yu, Jie Gao, Zhelin He, Xuan Wu, Aodi Li, Liang Wang, Meiling Wang, Kai Cao, Weiguo Fu, Huakui Chen, Gang Li, Jiabao Zhang, Yujun Wang, Yi Yang, Yong-Guan Zhu
Flash Joule heating (FJH) is an emerging and profitable technology for converting inexhaustible biomass into flash graphene (FG). However, it is challenging to produce biomass FG continuously due to the lack of an integrated device. Furthermore, the high-carbon footprint induced by both excessive energy allocation for massive pyrolytic volatiles release and carbon black utilization in alternating current-FJH (AC-FJH) reaction exacerbates this challenge. Here, we create an integrated automatic system with energy requirement-oriented allocation to achieve continuous biomass FG production with a much lower carbon footprint...
April 15, 2024: Nature Communications