Facile synthesis of flower-like platinum nanostructures as an efficient electrocatalyst for methanol electro-oxidation.

[1]  R. Datta,et al.  Pd-Pt alloys nanowires as support-less electrocatalyst with high synergistic enhancement in efficiency for methanol oxidation in acidic medium. , 2016, Journal of colloid and interface science.

[2]  Cunli Lin,et al.  High electrocatalytic performance of graphene nanoribbon supported PtAu nanoalloy for direct ethanol fuel cell and theoretical analysis of anti-CO poisoning , 2016 .

[3]  N. Zhou,et al.  Facile synthesis of hydrangea flower-like hierarchical gold nanostructures with tunable surface topographies for single-particle surface-enhanced Raman scattering. , 2015, Nanoscale.

[4]  Yanchun Zhao,et al.  Star-like PtCu nanoparticles supported on graphene with superior activity for methanol electro-oxidation , 2015 .

[5]  Sang-Yul Lee,et al.  The composition-controlled synthesis of Pt-Ag bimetallic nanochains for catalytic methanol oxidation , 2015 .

[6]  Zheye Zhang,et al.  Scalable synthesis of a Pd nanoparticle loaded hierarchically porous graphene network through multiple synergistic interactions. , 2015, Chemical communications.

[7]  K. Ye,et al.  Au- and Pd-modified porous Co film supported on Ni foam substrate as the high performance catalysts for H2O2 electroreduction , 2014 .

[8]  C. F. Ng,et al.  Three-dimensional graphene foam supported Fe₃O₄ lithium battery anodes with long cycle life and high rate capability. , 2013, Nano letters.

[9]  M. Bron,et al.  PtNi supported on oxygen functionalized carbon nanotubes: In depth structural characterization and activity for methanol electrooxidation , 2013 .

[10]  Jinbao Zheng,et al.  A novel modification method for nickel foam support and synthesis of a metal-supported hierarchical monolithic Ni@Pd catalyst for benzene hydrogenation , 2013 .

[11]  Shigang Sun,et al.  Electrochemically shape-controlled synthesis in deep eutectic solvents of Pt nanoflowers with enhanced activity for ethanol oxidation , 2012 .

[12]  B. Pollet,et al.  Support materials for PEMFC and DMFC electrocatalysts—A review , 2012 .

[13]  Longwei Yin,et al.  Well-dispersed and size-tuned bimetallic PtFex nanoparticle catalysts supported on ordered mesoporous carbon for enhanced electrocatalytic activity in direct methanol fuel cells , 2012 .

[14]  M. Chan-Park,et al.  3D graphene-cobalt oxide electrode for high-performance supercapacitor and enzymeless glucose detection. , 2012, ACS nano.

[15]  Dong Liu,et al.  Synthesis and electrocatalytic activity of Au/Pt bimetallic nanodendrites for ethanol oxidation in alkaline medium. , 2012, Journal of colloid and interface science.

[16]  Hua Zhang,et al.  Graphene-based composites. , 2012, Chemical Society reviews.

[17]  Hua Zhang,et al.  Preparation of novel 3D graphene networks for supercapacitor applications. , 2011, Small.

[18]  L. Jones,et al.  Direct electrodeposition of porous platinum honeycomb structures , 2011 .

[19]  Jingkun Xu,et al.  Effect of deposition potential on the structure and electrocatalytic behavior of Pt micro/nanoparticles , 2011 .

[20]  O. Terasaki,et al.  Shape- and size-controlled synthesis in hard templates: sophisticated chemical reduction for mesoporous monocrystalline platinum nanoparticles. , 2011, Journal of the American Chemical Society.

[21]  Zhongwei Chen,et al.  A review on non-precious metal electrocatalysts for PEM fuel cells , 2011 .

[22]  Yuyan Shao,et al.  Graphene-based electrochemical energy conversion and storage: fuel cells, supercapacitors and lithium ion batteries. , 2011, Physical chemistry chemical physics : PCCP.

[23]  Hui‐Ming Cheng,et al.  Three-dimensional flexible and conductive interconnected graphene networks grown by chemical vapour deposition. , 2011, Nature materials.

[24]  Ping Wu,et al.  Bimetallic Pt-Au nanocatalysts electrochemically deposited on graphene and their electrocatalytic characteristics towards oxygen reduction and methanol oxidation. , 2011, Physical chemistry chemical physics : PCCP.

[25]  P. Olivi,et al.  The effect of methanol on the stability of Pt/C and Pt–RuOx/C catalysts , 2010 .

[26]  K. Swider-Lyons,et al.  Experimental methods for quantifying the activity of platinum electrocatalysts for the oxygen reduction reaction. , 2010, Analytical chemistry.

[27]  Jing Li,et al.  Polymer wrapping technique: an effective route to prepare Pt nanoflower/carbon nanotube hybrids and application in oxygen reduction , 2010 .

[28]  S. Banerjee,et al.  Large-Area Synthesis of High-Quality and Uniform Graphene Films on Copper Foils , 2009, Science.

[29]  M. Dresselhaus,et al.  Raman spectroscopy in graphene , 2009 .

[30]  M. A. Domínguez-Crespo,et al.  Synthesis and electrochemical characterization of stabilized nickel nanoparticles , 2009 .

[31]  D. Zhao,et al.  Porous platinum nanowire arrays for direct ethanol fuel cell applications. , 2009, Chemical communications.

[32]  K. Seshan,et al.  How Carbon-Nano-Fibers attach to Ni foam , 2008 .

[33]  S. Choi,et al.  Influence of Sn content on PtSn/C catalysts for electrooxidation of C1–C3 alcohols: Synthesis, characterization, and electrocatalytic activity , 2008 .

[34]  Zhong Lin Wang,et al.  Synthesis of Tetrahexahedral Platinum Nanocrystals with High-Index Facets and High Electro-Oxidation Activity , 2007, Science.

[35]  Hong Yang,et al.  Synthesis of platinum multipods: an induced anisotropic growth. , 2005, Nano letters.

[36]  Bo-Qing Xu,et al.  Effect of electrochemical polarization of PtRu/C catalysts on methanol electrooxidation , 2004 .

[37]  Younan Xia,et al.  Single-crystal nanowires of platinum can be synthesized by controlling the reaction rate of a polyol process. , 2004, Journal of the American Chemical Society.