ScienceDirect Search Alert: Graphene Research

Search Alert: 5 New articles available on ScienceDirect

Name of Alert: Graphene Research Modify or Remove My Alerts     1. High thermal stability quasi-free-standing bilayer graphene formed on 4H-SiC(0001) via Platinum intercalation   Original Research Article Carbon, Available online 16 August 2014, Pages Chao Xia, Leif I. Johansson, Yuran Niu, Alexei A. Zakharov, Erik Janzén, Chariya Virojanadara     2. Reduced Graphene Oxide Supported Chiral Ni Particles as Magnetically Reusable and Enantioselective Catalyst for Asymmetric Hydrogenation   Original Research Article Carbon, Available online 16 August 2014, Pages Chao Ding, Weili Wei, Hanjun Sun, Jinhua Ding, Jinsong Ren, Xiaogang Qu     3. Synthesis of low-electrical-conductivity graphene/pernigraniline composites and their application in corrosion protection   Original Research Article Carbon, Available online 16 August 2014, Pages Wen Sun, Lida Wang, Tingting Wu, Yanqiu Pan, Guichang Liu     4. Reduced Graphene Oxide-supported Tungsten Carbide Modified with Ultralow-Platinum and Ruthenium-loading for Methanol Oxidation   Original Research Article Electrochimica Acta, Available online 16 August 2014, Pages Meiqin Shi, Wentian Zhang, Di Zhao, Youqun Chu, Chun’an Ma     5. Synthesis of copper tin sulfide/reduced graphene oxide composites and their electrochemical properties for lithium ion batteries   Original Research Article Electrochimica Acta, Available online 16 August 2014, Pages Zhian Zhang, Chengkun Zhou, Ming Jia, Yun Fu, Jie Li, Yanqing Lai Graphical abstract The Copper tin sulfide/reduced graphene oxide (CTS/RGO) composites are synthesized by a one-pot hydrothermal route and exhibit an extraordinary capacity of 1514.6 mAh g(1 with excellent cycling stability and high rate capability as electrode materials of lithium ion batteries. The enhancement in the electrochemical performance can be attributed to the introduction of RGO sheets that not only accommodate the volume changes and therefore bring the structural integrity of electrode, but also provide a highly conductive network for rapid electron transport in electrode during electrochemical reaction.

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