Ag/white graphene foam for catalytic oxidation of methanol with high efficiency and stability
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Huijie Zhao | Haibo Zeng | Jizhong Song | Zhong Yan | Xiufeng Song | H. Zeng | Jizhong Song | Zhong Yan | Xiufeng Song | Huijie Zhao
[1] Wei Chen,et al. PdAg Nanorings Supported on Graphene Nanosheets: Highly Methanol‐Tolerant Cathode Electrocatalyst for Alkaline Fuel Cells , 2013 .
[2] V. N. Demin,et al. Functionalization and dispersion of hexagonal boron nitride (h-BN) nanosheets treated with inorganic reagents. , 2012, Chemistry, an Asian journal.
[3] D. Trimm,et al. Catalytic combustion of methane , 1995 .
[4] Fudong Han,et al. Low-Temperature Synthesis of Meshy Boron Nitride with a Large Surface Area , 2010 .
[5] Wanlin Guo,et al. "White graphenes": boron nitride nanoribbons via boron nitride nanotube unwrapping. , 2010, Nano letters.
[6] Matthias Scheffler,et al. Why is a noble metal catalytically active? The role of the O-Ag interaction in the function of silver as an oxidation catalyst. , 2003, Physical review letters.
[7] Guangxia Shen,et al. Rolling up graphene oxide sheets into micro/nanoscrolls by nanoparticle aggregation , 2012 .
[8] Jen-Wei Pan,et al. A novel boron nitride supported Pt catalyst for VOC incineration , 2001 .
[9] Jun Yu Li,et al. Core/Shell Pt/C Nanoparticles Embedded in Mesoporous Carbon as a Methanol‐Tolerant Cathode Catalyst in Direct Methanol Fuel Cells , 2008 .
[10] Weiya Zhou,et al. Pt-Guided Formation of Pt−Ag Alloy Nanoislands on Au Nanorods and Improved Methanol Electro-Oxidation , 2009 .
[11] Yong Lu,et al. Novel microfibrous‐structured silver catalyst for high efficiency gas‐phase oxidation of alcohols , 2010 .
[12] G. G. Stokes. "J." , 1890, The New Yale Book of Quotations.
[13] M. El‐Halwagi,et al. Process Design and Integration of Shale Gas to Methanol , 2014 .
[14] N. Mack,et al. Controlled disulfonated poly(arylene ether sulfone) multiblock copolymers for direct methanol fuel cells. , 2014, ACS applied materials & interfaces.
[15] K. Sing. Reporting physisorption data for gas/solid systems with special reference to the determination of surface area and porosity (Recommendations 1984) , 1985 .
[16] Zhiquan Jiang,et al. Ag/SiO2 catalysts prepared via γ-ray irradiation and their catalytic activities in CO oxidation , 2007 .
[17] Haijuan Li,et al. Facile Synthesis of Free‐Standing Pd‐Based Nanomembranes with Enhanced Catalytic Performance for Methanol/Ethanol Oxidation , 2012, Advanced materials.
[18] Jen-Wei Pan,et al. Characterization of Boron-Nitride-Supported Pt Catalysts for the Deep Oxidation of Benzene , 2002 .
[19] Jie Zheng,et al. Synthesis, characterization, and photocatalytic properties of Ag modified hollow SiO2/TiO2 hybrid microspheres , 2011 .
[20] Andrew G. Glen,et al. APPL , 2001 .
[21] J. Wu,et al. Deep Oxidation of Methanol Using a Novel Pt/Boron Nitride Catalyst , 2003 .
[22] S. Nakazawa,et al. An Extremely Low Methanol Crossover and Highly Durable Aromatic Pore‐Filling Electrolyte Membrane for Direct Methanol Fuel Cells , 2007 .
[23] Dmitri Golberg,et al. Boron Nitride Nanotubes , 2007 .
[24] J. Baumann,et al. Calorimetric process monitoring of thermal decomposition of B–N–H compounds , 2000 .
[25] Guo-Dong Lin,et al. Study of Ag/La0.6Sr0.4MnO3 catalysts for complete oxidation of methanol and ethanol at low concentrations , 2000 .
[26] X. Bao,et al. Formation of subsurface oxygen species and its high activity toward CO oxidation over silver catalysts , 2005 .
[27] Jiali Zhang,et al. Preparation of Pt Ag alloy nanoisland/graphene hybrid composites and its high stability and catalytic activity in methanol electro-oxidation , 2011, Nanoscale research letters.
[28] San Ping Jiang,et al. Layer‐by‐Layer Self‐Assembly of Composite Polyelectrolyte–Nafion Membranes for Direct Methanol Fuel Cells , 2006 .
[29] H. Zeng,et al. Two-dimensional semiconductors: recent progress and future perspectives , 2013 .
[30] K. Chuang,et al. Catalytic deep oxidation of volatile organic compounds over fluorinated carbon supported platinum catalysts at low temperatures , 1997 .
[31] Dragos Ciuparu,et al. Combustion of Methane over Palladium-Based Catalysts: Catalytic Deactivation and Role of the Support , 2012 .
[32] Salvador Ordóñez,et al. Oxidation of methane over palladium catalysts: effect of the support. , 2005, Chemosphere.
[33] C. Zhi,et al. High-yield boron nitride nanosheets from ‘chemical blowing’: towards practical applications in polymer composites , 2012, Journal of physics. Condensed matter : an Institute of Physics journal.
[34] J. Connell,et al. Aqueously dispersed silver nanoparticle-decorated boron nitride nanosheets for reusable, thermal oxidation-resistant surface enhanced Raman spectroscopy (SERS) devices. , 2012, ACS applied materials & interfaces.
[35] Susan M. Kauzlarich,et al. Promotion of Hydrogen Release from Ammonia Borane with Mechanically Activated Hexagonal Boron Nitride , 2009 .
[36] B. Lee,et al. Versatile surface plasmon resonance of carbon-dot-supported silver nanoparticles in polymer optoelectronic devices , 2013, Nature Photonics.
[37] Xiaodong Zhang,et al. High-temperature diffusion induced high activity of SBA-15 supported Ag particles for low temperature CO oxidation at room temperature , 2013 .
[38] X. Bao,et al. Restructuring and redispersion of silver on SiO2 under oxidizing/reducing atmospheres and its activity toward CO oxidation. , 2005, The journal of physical chemistry. B.