Kinetics of hydrolysis of sodium borohydride for hydrogen production in fuel cell applications: A re

[1]  R. M. Iost,et al.  Monolayer collapse regulating process of adsorption-desorption of palladium nanoparticles at fatty acid monolayers at the air-water interface. , 2011, Langmuir : the ACS journal of surfaces and colloids.

[2]  R. Raj,et al.  Superefficient thin film multilayer catalyst for generating hydrogen from sodium borohydride , 2011 .

[3]  R. Raj,et al.  Ultrahigh figure-of-merit for hydrogen generation from sodium borohydride using ternary metal catalysts , 2011 .

[4]  P. Miele,et al.  Spontaneous hydrolysis of sodium borohydride in harsh conditions , 2011 .

[5]  P. Prosini,et al.  Water consumption during solid state sodium borohydride hydrolysis , 2010 .

[6]  Jing Liang,et al.  Electroless-deposited Co–P catalysts for hydrogen generation from alkaline NaBH4 solution , 2010 .

[7]  S. Bennici,et al.  Maximizing the hydrogen yield in the catalyzed hydrolysis of pure borohydride powders , 2010 .

[8]  Sjoerd Bakker,et al.  Hydrogen patent portfolios in the automotive industry – The search for promising storage methods , 2010 .

[9]  A. Khoury,et al.  Co-αAl2O3-Cu as shaped catalyst in NaBH4 hydrolysis , 2010 .

[10]  Lai-Peng Ma,et al.  Hydrogen generation from sodium borohydride solution using a ruthenium supported on graphite catalyst , 2010 .

[11]  Andreas Züttel,et al.  Hydrogen: the future energy carrier , 2008, Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences.

[12]  S. Özkar,et al.  Intrazeolite cobalt(0) nanoclusters as low-cost and reusable catalyst for hydrogen generation from the hydrolysis of sodium borohydride , 2009 .

[13]  P. Miele,et al.  Sodium tetrahydroborate as energy/hydrogen carrier, its history , 2009 .

[14]  P. Miele,et al.  Acetic acid, a relatively green single-use catalyst for hydrogen generation from sodium borohydride , 2009 .

[15]  Ulrich Eberle,et al.  Chemical and physical solutions for hydrogen storage. , 2009, Angewandte Chemie.

[16]  Ö. Metin,et al.  Hydrogen Generation from the Hydrolysis of Ammonia-borane and Sodium Borohydride Using Water-soluble Polymer-stabilized Cobalt(0) Nanoclusters Catalyst , 2009 .

[17]  Umit B. Demirci,et al.  Sodium borohydride versus ammonia borane, in hydrogen storage and direct fuel cell applications , 2009 .

[18]  P. Miele,et al.  Highly efficient acid-treated cobalt catalyst for hydrogen generation from NaBH4 hydrolysis , 2009 .

[19]  B. Liu,et al.  Sodium borohydride formation when Mg reacts with hydrous sodium borates under hydrogen , 2009 .

[20]  P. Prosini,et al.  Hydrogen generation by hydrolysis of NaBH4 , 2009 .

[21]  M. Matthews,et al.  Hydrogen Generation from Chemical Hydrides , 2009 .

[22]  A. Miotello,et al.  Hydrogen generation by hydrolysis of NaBH4 with efficient Co–P–B catalyst: A kinetic study , 2009 .

[23]  P. Miele,et al.  Ten-year efforts and a no-go recommendation for sodium borohydride for on-board automotive hydrogen storage , 2009 .

[24]  Z. Li,et al.  A review: Hydrogen generation from borohydride hydrolysis reaction , 2009 .

[25]  M. Zahmakiran,et al.  Zeolite-confined ruthenium(0) nanoclusters catalyst: record catalytic activity, reusability, and lifetime in hydrogen generation from the hydrolysis of sodium borohydride. , 2009, Langmuir : the ACS journal of surfaces and colloids.

[26]  V. Subramanian,et al.  Effects of acid accelerators on hydrogen generation from solid sodium borohydride using small scale devices , 2009 .

[27]  Qinglin Zhang,et al.  Reaction Chemistry Between Aqueous Sulfuric Acid and Solid Sodium Borohydride , 2009 .

[28]  D. Świerczyński,et al.  A multifactor study of catalyzed hydrolysis of solid NaBH4 on cobalt nanoparticles: Thermodynamics and kinetics , 2009 .

[29]  P. Prosini,et al.  Hydrogen production from solid sodium borohydride , 2009 .

[30]  A. Prasad,et al.  Cobalt oxides as Co2B catalyst precursors for the hydrolysis of sodium borohydride solutions to generate hydrogen for PEM fuel cells , 2008 .

[31]  Q. Guo,et al.  Improved hydrogen generation from alkaline NaBH4 solution using cobalt catalysts supported on modified activated carbon , 2008 .

[32]  F. Tsau,et al.  Hydrogen generation from hydrolysis of sodium borohydride using Ni–Ru nanocomposite as catalysts , 2008 .

[33]  Rui Chen,et al.  Kinetic study of NaBH4 hydrolysis over carbon-supported ruthenium , 2008 .

[34]  Cheng-Ching Yu,et al.  Kinetics of sodium borohydride hydrolysis reaction for hydrogen generation , 2008 .

[35]  A. Smirnova,et al.  Long-term stability of sodium borohydrides for hydrogen generation , 2008 .

[36]  Lai-Peng Ma,et al.  New Insights into Catalytic Hydrolysis Kinetics of Sodium Borohydride from Michaelis−Menten Model , 2008 .

[37]  M. Gürü,et al.  Hydrogen cycle with sodium borohydride , 2008 .

[38]  Hui‐Ming Cheng,et al.  High-performance cobalt-tungsten-boron catalyst supported on Ni foam for hydrogen generation from alkaline sodium borohydride solution , 2008 .

[39]  Q. Guo,et al.  Carbon-supported cobalt catalyst for hydrogen generation from alkaline sodium borohydride solution , 2008 .

[40]  Ibrahim Dincer,et al.  Hydrogen as a renewable and sustainable solution in reducing global fossil fuel consumption , 2008 .

[41]  P. Shen,et al.  Sodium borohydride hydrolysis on highly efficient Co-B/Pd catalysts , 2008 .

[42]  M. Zahmakiran,et al.  Intrazeolite ruthenium(0) nanoclusters: a superb catalyst for the hydrogenation of benzene and the hydrolysis of sodium borohydride. , 2008, Langmuir : the ACS journal of surfaces and colloids.

[43]  D. Cazorla-Amorós,et al.  Impact of the carbonisation temperature on the activation of carbon fibres and their application for hydrogen storage , 2008 .

[44]  KwangSup Eom,et al.  Effects of electroless deposition conditions on microstructures of cobalt-phosphorous catalysts and their hydrogen generation properties in alkaline sodium borohydride solution , 2008 .

[45]  V. Minkina,et al.  Stability of aqueous-alkaline sodium borohydride formulations , 2008 .

[46]  S. Özkar,et al.  Ruthenium(III) acetylacetonate: A homogeneous catalyst in the hydrolysis of sodium borohydride , 2008 .

[47]  S. Revankar,et al.  Sodium borohydride hydrolysis kinetics comparison for nickel, cobalt, and ruthenium boride catalysts , 2008 .

[48]  U. B. Demirci,et al.  Promoted sulphated-zirconia catalysed hydrolysis of sodium tetrahydroborate , 2008 .

[49]  Chuh‐Yung Chen,et al.  Simple and fast fabrication of polymer template-Ru composite as a catalyst for hydrogen generation from alkaline NaBH4 solution , 2008 .

[50]  Hui‐Ming Cheng,et al.  Amorphous cobalt-boron/nickel foam as an effective catalyst for hydrogen generation from alkaline sodium borohydride solution , 2008 .

[51]  Z. Li,et al.  Kinetic characteristics of sodium borohydride formation when sodium meta-borate reacts with magnesium and hydrogen , 2008 .

[52]  Liang Hong,et al.  Pt and Ru dispersed on LiCoO2 for hydrogen generation from sodium borohydride solutions , 2008 .

[53]  U. B. Demirci,et al.  Kinetics of Ru-promoted sulphated zirconia catalysed hydrogen generation by hydrolysis of sodium tetrahydroborate , 2008 .

[54]  S. H. Kim,et al.  Behavior of hydrogen evolution of aqueous sodium borohydride solutions , 2008 .

[55]  Sukumar Devotta,et al.  Chemical hydrides: A solution to high capacity hydrogen storage and supply , 2008 .

[56]  R. Fernandes,et al.  Pd-C powder and thin film catalysts for hydrogen production by hydrolysis of sodium borohydride , 2008 .

[57]  C. M. Rangel,et al.  Modeling of catalytic hydrogen generation from sodium borohydride , 2008 .

[58]  C. M. Rangel,et al.  Novel hydrogen generator/storage based on metal hydrides , 2009 .

[59]  C. M. Rangel,et al.  Integrating hydrogen generation and storage in a novel compact electrochemical system based on metal hydrides , 2007 .

[60]  J. Gray,et al.  Minimizing water utilization in hydrolysis of sodium borohydride : The role of sodium metaborate hydrates , 2007 .

[61]  Jun Chen,et al.  Improved hydrogen generation from alkaline NaBH4 solution using carbon-supported Co–B as catalysts , 2007 .

[62]  K. Hsueh,et al.  Catalysts for the hydrolysis of aqueous borohydride solutions to produce hydrogen for PEM fuel cells , 2007 .

[63]  G. Guella,et al.  Kinetic Features of the Platinum Catalyzed Hydrolysis of Sodium Borohydride from 11B NMR Measurements , 2007 .

[64]  J. C. Thenmozhiyal,et al.  Catalytic hydrolysis of sodium borohydride by a novel nickel–cobalt–boride catalyst , 2007 .

[65]  A. Varma,et al.  Mechanistic studies of combustion-stimulated hydrogen generation from sodium borohydride , 2007 .

[66]  Ö. Metin,et al.  Hydrogen generation from the hydrolysis of sodium borohydride by using water dispersible, hydrogenphosphate-stabilized nickel(0) nanoclusters as catalyst , 2007 .

[67]  G. Marbán,et al.  Towards the hydrogen economy , 2007 .

[68]  Ibrahim Dincer,et al.  Key strategies of hydrogen energy systems for sustainability , 2007 .

[69]  M. Mitov,et al.  Effects of nickel foam dimensions on catalytic activity of supported Co–Mn–B nanocomposites for hydrogen generation from stabilized borohydride solutions , 2007 .

[70]  R. Raj,et al.  A picoscale catalyst for hydrogen generation from NaBH4 for fuel cells , 2007 .

[71]  B. Yi,et al.  Hydrogen generation utilizing alkaline sodium borohydride solution and supported cobalt catalyst , 2007 .

[72]  J. Gore,et al.  Kinetics of Ru-catalyzed sodium borohydride hydrolysis , 2007 .

[73]  A. Varma,et al.  Combustion-assisted hydrolysis of sodium borohydride for hydrogen generation , 2007 .

[74]  Xiaolei Sun,et al.  Kinetics of Catalytic Hydrolysis of Stabilized Sodium Borohydride Solutions , 2007 .

[75]  A. Züttel,et al.  Complex hydrides for hydrogen storage. , 2007, Chemical reviews.

[76]  P. Prosini,et al.  A hydrogen refill for cellular phone , 2006 .

[77]  S. Özkar,et al.  Water dispersible acetate stabilized ruthenium(0) nanoclusters as catalyst for hydrogen generation from the hydrolysis of sodium borohyride , 2006 .

[78]  Sung Hyun Kim,et al.  Sodium borohydride as the hydrogen supplier for proton exchange membrane fuel cell systems , 2006 .

[79]  G. Guella,et al.  New insights on the mechanism of palladium-catalyzed hydrolysis of sodium borohydride from 11B NMR measurements. , 2006, The journal of physical chemistry. B.

[80]  Rui Chen,et al.  Hydrogen Storage via the Hydrolysis of NaBH4 Basic Solution: Optimization of NaBH4 Concentration , 2006 .

[81]  Rui Chen,et al.  Semiempirical hydrogen generation model using concentrated sodium borohydride solution , 2006 .

[82]  B. Liu,et al.  Nickel- and cobalt-based catalysts for hydrogen generation by hydrolysis of borohydride , 2006 .

[83]  C. M. Rangel,et al.  Dynamic Modeling of Hydrogen Generation via Hydrolysis of Sodium Borohydride , 2006 .

[84]  N. Stern What is the Economics of Climate Change , 2006 .

[85]  S. Özkar,et al.  Hydrogen generation from hydrolysis of sodium borohydride using Ru(0) nanoclusters as catalyst , 2005 .

[86]  S. Chan,et al.  Feasibility study of hydrogen generation from sodium borohydride solution for micro fuel cell applications , 2005 .

[87]  Suk Woo Nam,et al.  A study on hydrogen generation from NaBH4 solution using the high-performance Co-B catalyst , 2005 .

[88]  N. Muradov,et al.  From hydrocarbon to hydrogen–carbon to hydrogen economy , 2005 .

[89]  T. Veziroglu,et al.  A REVIEW OF HYDROGEN STORAGE SYSTEMS BASED ON BORON AND ITS COMPOUNDS , 2004 .

[90]  S. Matsumoto,et al.  Compressed hydrogen generation using chemical hydride , 2004 .

[91]  A. D’Ulivo Chemical vapor generation by tetrahydroborate(III) and other borane complexes in aqueous media: A critical discussion of fundamental processes and mechanisms involved in reagent decomposition and hydride formation , 2004 .

[92]  Andreas Züttel,et al.  Hydrogen storage methods , 2004, Naturwissenschaften.

[93]  Hanxi Yang,et al.  Hydrogen production from catalytic hydrolysis of sodium borohydride solution using nickel boride catalyst , 2003 .

[94]  Y. Kojima,et al.  Recycling process of sodium metaborate to sodium borohydride , 2003 .

[95]  Andreas Züttel,et al.  LiBH4 a new hydrogen storage material , 2003 .

[96]  Kenichiro Suzuki,et al.  Hydrogen generation using sodium borohydride solution and metal catalyst coated on metal oxide , 2002 .

[97]  Andreas Züttel,et al.  Hydrogen storage in carbon nanostructures , 2002 .

[98]  T. Tamura,et al.  Protium absorption properties of Ti–V–Cr–Mn alloys with a b.c.c. structure , 2002 .

[99]  A. Züttel,et al.  Hydrogen-storage materials for mobile applications , 2001, Nature.

[100]  A. Züttel,et al.  Hydrogen Interaction with Carbon Nanostructures , 2001 .

[101]  K. Gross,et al.  Catalyzed alanates for hydrogen storage , 2000 .

[102]  Joel Martinez-Frias,et al.  Analytical and experimental evaluation of insulated pressure vessels for cryogenic hydrogen storage , 2000 .

[103]  Michael T. Kelly,et al.  A safe, portable, hydrogen gas generator using aqueous borohydride solution and Ru catalyst , 2000 .

[104]  Frank A. de Bruijn,et al.  Stainless steel for cost-competitive bipolar plates in PEMFCs , 2000 .

[105]  Joan M. Ogden,et al.  Fuels for fuel cell vehicles , 2000 .

[106]  Cheng,et al.  Hydrogen storage in single-walled carbon nanotubes at room temperature , 1999, Science.

[107]  Michael T. Kelly,et al.  An ultrasafe hydrogen generator: aqueous, alkaline borohydride solutions and Ru catalyst , 1999 .

[108]  Craig M. Jensen,et al.  Hydrogen cycling behavior of zirconium and titanium–zirconium-doped sodium aluminum hydride , 1999 .

[109]  Craig M. Jensen,et al.  Advanced titanium doping of sodium aluminum hydride:: segue to a practical hydrogen storage material? , 1999 .

[110]  Kenneth A. Smith,et al.  Hydrogen adsorption and cohesive energy of single-walled carbon nanotubes , 1999 .

[111]  F. Albert Cotton,et al.  Advanced Inorganic Chemistry , 1999 .

[112]  Robert C. Bowman,et al.  Hydrogen desorption and adsorption measurements on graphite nanofibers , 1998 .

[113]  Salvador M. Aceves,et al.  Insulated pressure vessels for hydrogen storage on vehicles , 1998 .

[114]  A. Chambers,et al.  Hydrogen Storage in Graphite Nanofibers , 1998 .

[115]  J. Bentley,et al.  Hydrogen storage by carbon sorption , 1997 .

[116]  B. Bogdanovic,et al.  Ti-doped alkali metal aluminium hydrides as potential novel reversible hydrogen storage materials , 1997 .

[117]  D. Bethune,et al.  Storage of hydrogen in single-walled carbon nanotubes , 1997, Nature.

[118]  K. Pehr,et al.  Aspects of safety and acceptance of LH2 tank systems in passenger cars , 1996 .

[119]  Richard Chahine,et al.  Low-pressure adsorption storage of hydrogen , 1994 .

[120]  T.Nejat Veziroǧlu,et al.  Hydrogen technology for energy needs of human settlements , 1987 .

[121]  Clifford M. Kaufman,et al.  Hydrogen generation by hydrolysis of sodium tetrahydroborate: effects of acids and transition metals and their salts , 1985 .

[122]  Charles N. Satterfield,et al.  Heterogeneous catalysis in practice , 1980 .

[123]  W. L. Jolly,et al.  Kinetic study of the intermediates in the hydrolysis of the hydroborate ion , 1972 .

[124]  M. M. Kreevoy,et al.  H$sub 2$BH$sub 3$ AS AN INTERMEDIATE IN TETRAHYDRIDOBORATE HYDROLYSIS. , 1972 .

[125]  K. A. Holbrook,et al.  Hydrolysis of the borohydride ion catalysed by metal–boron alloys , 1971 .

[126]  J. Gardiner,et al.  Polarography of the Tetrahydroborate Ion. The Effect of Hydrolysis on the System , 1965 .

[127]  J. Gardiner,et al.  Kinetics of the Stepwise Hydrolysis of Tetrahydroborate Ion , 1965 .

[128]  J. Gardiner,et al.  The Hydrolysis of Sodium Tetrahydroborate. Identification of an Intermediate , 1964 .

[129]  W. L. Jolly,et al.  The Hydrolysis of Aqueous Hydroborate , 1962 .

[130]  C. Kibby,et al.  Boron Hydrides. III. Hydrolysis of Sodium Borohydride in Aqueous Solution , 1962 .

[131]  W. Stockmayer,et al.  KINETICS OF BOROHYDRIDE HYDROLYSIS , 1961 .

[132]  C. G. Swain,et al.  AN INVERSE HYDROGEN ISOTOPE EFFECT IN THE HYDROLYSIS OF SODIUM BOROHYDRIDE , 1960 .

[133]  C. G. Swain,et al.  GENERAL ACID CATALYSIS OF THE HYDROLYSIS OF SODIUM BOROHYDRIDE1,2 , 1960 .

[134]  A. Levy,et al.  Catalyzed Hydrolysis of Sodium Borohydride , 1960 .

[135]  John M. Brown,et al.  Additions and Corrections: The Stability of Potassium Borohydride in Alkaline Solutions. , 1957 .

[136]  M. Svensson,et al.  THE STABILITY OF POTASSIUM BOROHYDRIDE IN ALKALINE SOLUTIONS1 , 1957 .

[137]  R. L. Pecsok Polarographic Studies on the Oxidation and Hydrolysis of Sodium Borohydride1 , 1953 .

[138]  H. Brown,et al.  Sodium Borohydride, Its Hydrolysis and its Use as a Reducing Agent and in the Generation of Hydrogen1 , 1953 .

[139]  M. Kilpatrick,et al.  Kinetics of the Reaction of Lithium Borohydride in Aqueous Acid Solution1,2 , 1950 .