 This research has developed a new method for creating uniform zinc depositions on various surfaces, such as titanium, copper, and steel. This method involves using plasma-assisted surface modification to create f-doped carbon nanoparticles, FCNPs, which then serve as nucleation assistance for zinc deposition. These FCNPs help to improve the zinc-plating kinetics, resulting in more uniform zinc depositions. Additionally, the zinc-slash-f2 solid electrolyte interface helps to reduce side reactions and increase the rate of mass transfer, thus increasing the battery's reversibility. As a result, the half cell of PT, coupled with zinc, shows an average columbic efficiency of 99.47%, with 500 cycles. Furthermore, the symmetric cell of PZN anode displays a lifespan of over 1,500 hours at a current density of 5 mA Cm2. Finally, it is believed that this innovative surface modification can be used to develop revolutionary methods for uniform metallic deposition, as well as dendrite-free rechargeable battery systems. This article was authored by Lin Yunsheng, Yu Zhongkim, Hao Fu, and others. We are article.tv, links in the description below.