ScienceDirect Search Alert: Graphene Research

Search alert: Graphene Research

7 New articles available on ScienceDirect

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Selective hydrogenation of CC bond over N-doped reduced graphene oxides supported Pd catalyst   Original Research Article Applied Catalysis B: Environmental, Available online 18 July 2015, Pages Renfeng Nie, Meng Miao, Weichen Du, Juanjuan Shi, Yingchun Liu, Zhaoyin Hou Graphical abstract Adsorption Mechanism of Magnetically Separable Fe3O4/Graphene Oxide Hybrids   Original Research Article Applied Surface Science, Available online 18 July 2015, Pages Ke Ouyang, Chuanhe Zhu, Ya Zhao, Leichao Wang, Shan Xie, Qun Wang Graphical abstract A recyclable Fe3O4/Graphene oxide (GO) magnetic hybrid was successfully synthesized via a facile one-pot polylol approach and exhibited an effective adsorption of BPA in aqueous solution. Tin Oxide/Graphene Aerogel Nanocomposites Building Superior Rate Capability for Lithium Ion Batteries   Original Research Article Electrochimica Acta, Available online 18 July 2015, Pages Linlin Fan, Xifei Li, Yanhua Cui, Hui Xu, Xianfa Zhang, Dongbin Xiong, Bo Yan, Yufen Wang, Dejun Li Graphical abstract One-pot synthesis of graphene/glucose/nickel oxide composite for the supercapacitor application   Original Research Article Electrochimica Acta, Available online 18 July 2015, Pages Minh-Hai Tran, Hae Kyung Jeong Graphical abstract Rod-shaped CeO2 intercalated Graphene for supporting Pt composite as Anode catalysts for DMFCs   Original Research Article Electrochimica Acta, Available online 18 July 2015, Pages Weihua Wang, Xiaolin Lu, Mingda Zhu, Zhenzhu Cao, Caihong Li, Yanfang Gao, Lijun Li, Jinrong Liu Graphical abstract Ionic liquid modified graphene for supercapacitors with high rate capability   Original Research Article Electrochimica Acta, Available online 18 July 2015, Pages Qingguo Shao, Jie Tang, Yuexian Lin, Jing Li, Faxiang Qin, Kun Zhang, Jinshi Yuan, Lu-Chang Qin Graphical abstract Ionic liquid modified reduced graphene oxide exhibits improved rate capability for supercapacitors using the same ionic liquid electrolyte. It is attributed to improved compatibility between the modified electrode and the same ionic liquid electrolyte. Biofilms and Extracellular Polymeric Substances Mediate the Transport of Graphene Oxide Nanoparticles in Saturated Porous Media   Original Research Article Journal of Hazardous Materials, Available online 18 July 2015, Pages Jian-Zhou He, Cheng-Cheng Li, Deng-Jun Wang, Dong-Mei Zhou Graphical abstract Access all 7 new results in ScienceDirect for : TITLE(graphene) and TITLE-ABSTR-KEY(graphene)

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