Microwave-assisted hydrogen releasing from liquid organic hydride over Pt/CNT catalyst: Effects of oxidation treatment of CNTs

[1]  A. H. Pandith,et al.  Hydrogen storage: Materials, methods and perspectives , 2015 .

[2]  Xinhai Yu,et al.  Engineering Pt/carbon-nanofibers/carbon-paper composite towards highly efficient catalyst for hydrogen evolution from liquid organic hydride , 2015 .

[3]  Xinggui Zhou,et al.  Carbon Nanotubes as Support in the Platinum-Catalyzed Hydrolytic Dehydrogenation of Ammonia Borane. , 2015, ChemSusChem.

[4]  T. Fang,et al.  Current situation and prospect of hydrogen storage technology with new organic liquid , 2014 .

[5]  D. Sebastián,et al.  Carbon supports for the catalytic dehydrogenation of liquid organic hydrides as hydrogen storage and delivery system , 2014 .

[6]  Xinggui Zhou,et al.  Effects of carbon support on microwave-assisted catalytic dehydrogenation of decalin , 2014 .

[7]  De Chen,et al.  Towards a highly-efficient fuel-cell catalyst: optimization of Pt particle size, supports and surface-oxygen group concentration. , 2013, Physical chemistry chemical physics : PCCP.

[8]  De Chen,et al.  Carbon Nanomaterials in Catalysis: Proton Affinity, Chemical and Electronic Properties, and their Catalytic Consequences , 2013 .

[9]  Changhai Liang,et al.  Carbon nanotubes supported Pt catalysts for phenylacetylene hydrogenation: effects of oxygen containing surface groups on Pt dispersion and catalytic performance , 2012 .

[10]  Jiuling Chen,et al.  Influence of surface functionalization via chemical oxidation on the properties of carbon nanotubes. , 2012, Journal of colloid and interface science.

[11]  P. Rangsunvigit,et al.  Enhanced conversion of tetralin dehydrogenation under microwave heating: Effects of temperature variation , 2012 .

[12]  Rajesh B. Biniwale,et al.  Hydrogen delivery through liquid organic hydrides: Considerations for a potential technology , 2012 .

[13]  P. Rangsunvigit,et al.  Microwave effect in the dehydrogenation of tetralin and decalin with a fixed-bed reactor , 2012 .

[14]  Nick Serpone,et al.  On the Generation of Hot-Spots by Microwave Electric and Magnetic Fields and Their Impact on a Microwave-Assisted Heterogeneous Reaction in the Presence of Metallic Pd Nanoparticles on an Activated Carbon Support , 2011 .

[15]  R. Freymann,et al.  A future energy supply based on Liquid Organic Hydrogen Carriers (LOHC) , 2011 .

[16]  Qiang Zhang,et al.  Carbon nanotube mass production: principles and processes. , 2011, ChemSusChem.

[17]  Dang Sheng Su,et al.  20 years of carbon nanotubes. , 2011, ChemSusChem.

[18]  Xinggui Zhou,et al.  Preparation of CNF-supported Pt catalysts for hydrogen evolution from decalin , 2011 .

[19]  De Chen,et al.  A Current Perspective on Catalysis for New Energy Technologies , 2011 .

[20]  J. A. Menéndez,et al.  Influence of porosity and surface groups on the catalytic activity of carbon materials for the microwave-assisted CO2 reforming of CH4 , 2010 .

[21]  D. Sebastián,et al.  The effect of the functionalization of carbon nanofibers on their electronic conductivity , 2010 .

[22]  L. Stobiński,et al.  Multiwall carbon nanotubes purification and oxidation by nitric acid studied by the FTIR and electron spectroscopy methods , 2010 .

[23]  J. Figueiredo,et al.  The role of surface chemistry in catalysis with carbons , 2010 .

[24]  K. Wepasnick,et al.  Chemical and structural characterization of carbon nanotube surfaces , 2010, Analytical and bioanalytical chemistry.

[25]  J. A. Menéndez,et al.  Microwave heating processes involving carbon materials , 2010 .

[26]  J. Bernhard,et al.  Role of functional groups on the microwave attenuation and electric resistivity of activated carbon fiber cloth , 2009 .

[27]  Xinggui Zhou,et al.  CNFs-supported Pt catalyst for hydrogen evolution from decalin , 2009 .

[28]  Alan H. Windle,et al.  Efficient microwave energy absorption by carbon nanotubes , 2008 .

[29]  B. Ondruschka,et al.  Microwave-assisted catalytic oxidative dehydrogenation of ethylbenzene on iron oxide loaded carbon nanotubes , 2008 .

[30]  P. Papakonstantinou,et al.  Raman study of multiwalled carbon nanotubes functionalized with oxygen groups , 2006 .

[31]  W. Yuan,et al.  Characterization of carbon nanofiber composites synthesized by shaping process , 2005 .

[32]  T. Satoh,et al.  Continuous hydrogen evolution from tetrahydronaphthalene over palladium catalysts supported on activated carbon fibers , 2005 .

[33]  Hiroshi Arai,et al.  Catalytic decalin dehydrogenation/naphthalene hydrogenation pair as a hydrogen source for fuel-cell vehicle , 2003 .