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SnS nanoparticles electrostatically anchored on three-dimensional N-doped graphene as an active and durable anode for sodium-ion batteries
Energy & Environmental Science ( IF 32.4 ) Pub Date : 2017-07-24 00:00:00 , DOI: 10.1039/c7ee01628j Xunhui Xiong,Chenghao Yang,Guanhua Wang,Yuwei Lin,Xing Ou,Jeng-Han Wang,Bote Zhao,Meilin Liu,Zhang Lin,Kevin Huang
Energy & Environmental Science ( IF 32.4 ) Pub Date : 2017-07-24 00:00:00 , DOI: 10.1039/c7ee01628j Xunhui Xiong,Chenghao Yang,Guanhua Wang,Yuwei Lin,Xing Ou,Jeng-Han Wang,Bote Zhao,Meilin Liu,Zhang Lin,Kevin Huang
SnS nanoparticles (SnS NPs) electrostatically anchored on a 3D N-doped graphene (3DNG) network exhibit the best cycling performance reported so far for SnS-based anodes. The stronger affinity of 3DNG to SnS NPs and to the discharge product compared to pure graphene is the fundamental reason for achieving a stable electrode architecture during cycling.
中文翻译:
SnS纳米粒子静电锚固在三维N掺杂石墨烯上,作为钠离子电池的活性耐用阳极
静电锚固在3D N掺杂石墨烯(3DNG)网络上的SnS纳米颗粒(SnS NPs)迄今为止报道的基于SnS的阳极表现出最佳的循环性能。与纯石墨烯相比,3DNG对SnS NP和放电产物的亲和力更强,这是在循环过程中获得稳定电极结构的根本原因。
更新日期:2017-08-09
中文翻译:
SnS纳米粒子静电锚固在三维N掺杂石墨烯上,作为钠离子电池的活性耐用阳极
静电锚固在3D N掺杂石墨烯(3DNG)网络上的SnS纳米颗粒(SnS NPs)迄今为止报道的基于SnS的阳极表现出最佳的循环性能。与纯石墨烯相比,3DNG对SnS NP和放电产物的亲和力更强,这是在循环过程中获得稳定电极结构的根本原因。