ScienceDirect Search Alert: Graphene Research

Search alert: Graphene Research

6 New articles available on ScienceDirect

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Reduced graphene oxide decorated with PtCo bimetallic nanoparticles: Facile fabrication and application for base-free oxidation of glycerol   Original Research Article Catalysis Today, Available online 16 April 2017, Pages Mengyuan Zhang, Juanjuan Shi, Wensheng Ning, Zhaoyin Hou Graphical abstract Perturbation effect of reduced graphene oxide quantum dots (rGOQDs) on aryl hydrocarbon receptor (AhR) pathway in zebrafish   Original Research Article Biomaterials, Available online 15 April 2017, Pages Jing-Hui Zhang, Tai Sun, Aping Niu, Yu-Mei Tang, Shun Deng, Wei Luo, Qun Xu, Dapeng Wei, De-Sheng Pei Preparation of porous graphene oxide by chemically intercalating a rigid molecule for enhanced removal of typical pharmaceuticals   Original Research Article Carbon, Available online 15 April 2017, Pages Danna Shan, Shubo Deng, Jin Li, Hubian Wang, Conghui He, Giovanni Cagnetta, Bin Wang, Yujue Wang, Jun Huang, Gang Yu Graphical abstract Image 1 Graphene nanoplatelets coated glass fibre fabrics as strain sensors   Original Research Article Composites Science and Technology, Available online 15 April 2017, Pages R. Moriche, A. Jiménez-Suárez, M. Sánchez, S.G. Prolongo, A. Ureña Multi-dimensional Ag/NiO/reduced graphene oxide nanostructures for a highly sensitive non-enzymatic glucose sensor   Original Research Article Journal of Alloys and Compounds, Available online 15 April 2017, Pages Yen-Linh Thi Ngo, Le Thuy Hoa, Jin Suk Chung, Seung Huyn Hur Graphical abstract Image 1 Adsorption properties of fission gases Xe and Kr on pristine and doped graphene: A first principle DFT study   Original Research Article Journal of Nuclear Materials, Available online 15 April 2017, Pages Tijo Vazhappilly, Tapan K. Ghanty, B.N. Jagatap Graphical abstract The adsorption of radioactive fission gases Xe and Kr on pristine/doped graphene is an interesting topic in the context of nuclear waste management. Previous experimental and computational studies about Xe/Kr adsorption on graphene were limited to only on pristine graphene. The doping by hetero atom changes the electronic properties of graphene and creates active sites in the lattice. Based on first principle calculations, we suggest specific doped graphenes for efficient sorption of noble gases.Image 1 Access all 6 new results in ScienceDirect for : TITLE(graphene) and TITLE-ABSTR-KEY(graphene)

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