Sodium‐Ion Batteries: C‐Plasma of Hierarchical Graphene Survives SnS Bundles for Ultrastable and High Volumetric Na‐Ion Storage (Adv. Mater. 49/2018),Advanced Materials

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Sodium‐Ion Batteries: C‐Plasma of Hierarchical Graphene Survives SnS Bundles for Ultrastable and High Volumetric Na‐Ion Storage (Adv. Mater. 49/2018)
Advanced Materials ( IF 29.4 ) Pub Date : 2018-12-03 , DOI: 10.1002/adma.201870380
Dongliang Chao ₁ , Bo Ouyang ₂ , Pei Liang ₃ , Tran Thi Thu Huong ₁ , Guichong Jia ₁ , Hui Huang ₄ , Xinhui Xia ₅ , Rajdeep Singh Rawat ₂ , Hong Jin Fan ₁

Affiliation

Hierarchical graphene‐bundled tin sulfide is derived by an ingenious in situ C‐plasma route, as described by Rajdeep Singh Rawat, Hong Jin Fan, and co‐workers in article number 1804833, and tested as a flexible anode for sodium‐ion batteries. This flexible anode shows unprecedented cycling lifespan and retention of volumetric capacities. Density functional theory calculation verifies the formation mechanism of graphene by catalysis of metallic Sn.

中文翻译：

钠离子电池：分层石墨烯的C等离子在超稳定和高容量钠离子存储中能幸存于SnS束中（Adv。Mater。49/2018）

分层石墨烯捆绑的硫化锡是通过巧妙的原位C-等离子体路线衍生的，如Rajdeep Singh Rawat，Hong Jin Fan和其同事在文章编号1804833中所述，并已作为钠离子电池的柔性阳极进行了测试。这种柔性阳极具有空前的循环寿命和容量保持能力。密度泛函理论计算通过金属锡的催化作用验证了石墨烯的形成机理。

更新日期：2018-12-03

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