A nanoporous nitrogen-doped graphene for high performance lithium sulfur batteries Chinese Chemical Letters, Available online 2 November 2016, Pages Shuang-Ke Liu, Xiao-Bin Hong, Yu-Jie Li, Jing Xu, Chun-Man Zheng, Kai Xie
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A dual modification of nanopores and N-doping for graphene is present to encapsulate sulfur for lithium sulfur batteries. The p-N-rGO/S cathode delivers a high discharge capacity of 1110mAhg−1 at 1C rate. The improvement is ascribed to the rational combination of nanopores and N-doping. | Simultaneous determination of trace Cd(II), Pb(II) and Cu(II) by differential pulse anodic stripping voltammetry using a reduced graphene oxide-chitosan/poly-L-lysine nanocomposite modified glassy carbon electrode Original Research Article Journal of Colloid and Interface Science, Available online 2 November 2016, Pages Zhuo Guo, Dong-di Li, Xian-ke Luo, Ya-hui Li, Qi-Nai Zhao, Meng-meng Li, Yang-ting Zhao, Tian-shuai Sun, Chi Ma
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| Developing sustainable graphene-doped titanium nano tube coated to superparamagnetic nanoparticles for arsenic recovery Original Research Article Journal of the Taiwan Institute of Chemical Engineers, Available online 2 November 2016, Pages Yu-Jung Lin, Wen-Zhi Cao, Tong Ouyang, Bor-Yann Chen, Chang-Tang Chang
Graphical abstractDeveloping sustainable graphene-doped titanium nano tube coated to superparamagnetic nanoparticles for Arsenic recovery Yu-Jung Lin, Wen-Zhi Cao, Tong Ouyang, Bor-Yann Chen, Chang-Tang Chang In this review, experiments were conducted to investigate the oxidation of Arsenic in aqueous solution by graphene / magnetic nano particle/ titanium nanotube composite (GN/MNP/TNT) adsorption process. GN/MNP/TNT with an average inner diameter about 6nm was synthesized using the hydrothermal method. Several conditions such as As(III) concentration, regeneration times, and content of GN in GN/MNP/TNT are discussed.Image, graphical abstract . | |
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