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15

Hydrogen storage – literature

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Reference books

R. Saito, G. Dresselhaus and M. S. Dresselhaus, Physical Properties of carbon nanotubes, Imperial College Press, Londres, 1998

G. Gao, T. Cagin and W. A. Goddard III, Energetics, Structure, Mechanical and Vibrational Properties of Single Walled Carbon Nanotubes (SWNT), Foresight Institute, 1997 (pdf©)

D. Frenkel and B. Smit, Understanding molecular simulation: from algorithms to applications, Academic Press, San Diego, 1996

C. Ngô and H. Ngô, Physique statistique, Masson, Paris, 1995

R. A. Oriani, The physical and metallurgical aspects of hydrogen in metals, Fourth International Conference on Cold Fusion, 1993 (pdf)

Nanotube fabrication methods

S. Iijima, Helical microtubules of graphitic carbon, Nature 354 (1991), 56-58 (pdf©)

S. Iijima and T. Ichihashi, Single-shell carbon nanotubes of 1-nm diameter, Nature 363 (1993), 603-605 (pdf©)

A. Thess, R. Lee, P. Nikolaev, H. Dai, P. Petit, J. Robert, C. Xu, Y. H. Lee, S. G. Kim, A. G. Rinzler, D. T. Colbert, G. E. Scuseria, D. Tománek, J. E. Fischer and R. E. Smalley, Crystalline Ropes of Metallic Carbon Nanotubes, Science 273 (1996), 483-487 (pdf©)

P. Nikolaev, M. J. Bronikowski, R. K. Bradley, F. Rohmund, D. T. Colbert, K. A. Smith and R. E. Smalley, Gas-phase Catalytic Growth of Single-Walled Carbon Nanotubes from Carbon Monoxide, Chem. Phys. Lett. 313 (1999), 91-97 (pdf©)

O. Smiljanìc, B. L. Stansfield, J.-P. Dodelet, A. Serventi and S. Désilets, Gas-phase synthesis of SWNT by an atmospheric pressure plasma jet, Chem. Phys. Lett. 356 (2002), 189-193 (pdf©)

P. E. Anderson and N. M. Rodriguez, Growth of graphite nanofibers from the decomposition of CO/H2 over silica-supported iron-nickel particles, J. Mater. Res. 14 (1999), 2912-2921 (pdf©)

C. Singh, T. Quested, C. B. Boothroyd, P. Thomas, I. A. Kinloch, A. I. Abou-Kandil and A. H. Windle, Synthesis and Characterization of Carbon Nanofibers Produced by the Floating Catalyst Method, J. Phys. Chem. B 106 (2002), 10915-10922 (pdf©)

Review of hydrogen storage

P. Harcouët and J. Demoment, Comment stocker l’hydrogène sûrement et efficacement?, Clefs CEA 44 (Hiver 2000-2001), 68-72 (pdf)

K. Atkinson, S. Roth, M. Hirscher and W. Grünwald, Carbon nanostructures : An efficient hydrogen storage medium for fuel cells?, Fuel Cells Bulletin 38 (2001), 9-12 (pdf©)

R. Dagani, Tempest in a tiny tube, Chem. Eng. News 25 vol. 2 (2002), 25-28 (pdf©)

F. L. Darkrim, P. Malbrunot and G. P. Tartaglia, Review of hydrogen storage by adsorption in carbon nanotubes, Intl. J. Hydrogen Energy 27 (2002), 193-202 (pdf©)

Experimental measure of hydrogen adsorption in carbon nanostructures

A. C. Dillon, K. M. Jones, T. A. Bekkedahl, C. H. Kiang, D. S. Bethune and M. J. Heben, Storage of hydrogen in single-walled carbon nanotubes, Nature 386 (1997), 377-379 (pdf©)

A. Chambers, C. Park, R. T. K. Baker and N. M. Rodriguez, Hydrogen Storage in Graphite Nanofibers, J. Phys. Chem. B 102 (1998), 4253-4256 (pdf©)

C. C. Ahn, Y. Ye, B. V. Ratnakumar, C. Witham, R. C. Bowman and B. Fultz, Hydrogen desorption and adsorption measurements on graphite nanofibers, Appl. Phys. Lett. 73 (1998), 3378-3380 (pdf©)

Y. Ye, C. C. Ahn, C. Witham, B. Fultz, J. Liu, A. G. Rinzler, D. Colbert, K. A. Smith and R. E. Smalley, Hydrogen adsorption and cohesive energy of single-walled carbon nanotubes, Appl. Phys. Lett. 74 (1999), 2307-2309 (pdf©)

C. Liu, Y. Y. Fan, M. Liu, H. T. Cong, H. M. Cheng and M. S. Dresselhaus, Hydrogen storage in Single-Walled Carbon Nanotubes at Room Temperature, Science 286 (1999), 1127-1129 (pdf©)

X. B. Wu, P. Chen, J. Lin and K. L. Tan, Hydrogen uptake by carbon nanotubes, Intl. J. Hydrogen Energy 25 (2000), 261-265 (pdf©)

F. E. Pinkerton, B. G. Wicke, C. H. Olk, G. G. Tibbetts, G. P. Meisner, M. S. Meyer and J. F. Herbst, Thermogravimetric Measurement of Hydrogen Absorption in Alkali-Modified Carbon Materials, J. Phys. Chem. B 104 (2000), 9460-9467 (pdf©)

M. Hirscher, M. Becher, M. Haluska, U. Dettlaff-Weglikowska, A. Quintel, G. S. Duesberg, Y.-M. Choi, P. Downes, M. Hulman, S. Roth, I. Stepanek and P. Bernier, Hydrogen storage in sonicated carbon materials, Appl. Phys. A 72 (2001), 129-132 (pdf©)

M. Hirscher, M. Becher, M. Haluska, A. Quintel, V. Skakalova, Y.-M. Choi, U. Dettlaff-Weglikowska, S. Roth, I. Stepanek, P. Bernier, A. Leonhardt and J. Fink, Hydrogen storage in carbon nanostructures, J. Alloys & Compounds 330-332 (2002), 654-658 (pdf©)

P. Bénard and R. Chahine, Determination of the Adsorption Isotherms of Hydrogen on Activated Carbons above the Critical Temperature of the Adsorbate over Wide Temperature and Pressure Ranges, Langmuir 17 (2001), 1950-1955 (pdf©)

Theoretical measure of hydrogen adsorption in carbon nanostructures

P. Guay, B. L. Stansfield and A. Rochefort On the control of carbon nanostructures for hydrogen storage applications, Carbon 42 (2004), 2187-2193 (pdf)

P. Guay, Introduction à l’étude par modélisation numérique de l’adsorption de l’hydrogène dans les nanostructures de carbone, 2001 (pdf)

P. Guay, Validation du modèle utilisé pour l’étude par simulations moléculaires de l’adsorption d’hydrogène par les nanotubes de carbone, 2001 (pdf)

P. Guay, Modélisation Monte-Carlo de l’adsorption de l’hydrogène dans les nanostructures de carbone, INRS-EMT, Montréal, 2003 (pdf)

P. Guay, Improved adsorption capacity of doped carbon nanotube bundles, NT’02 Conference, 2002 (pdf)

H. Cheng, G. P. Pez and A. C. Cooper, Mechanism of Hydrogen Sorption in Single-Waled Carbon Nanotubes, J. Am. Chem. Soc. 123 (2001), 5845-5846 (pdf©)

H. Dodziuk and G. Dolgonos, Molecular modeling study of hydrogen storage in carbon nanotubes, Chem. Phys. Lett. 356 (2002), 79-83 (pdf©)

Q. Wang and J. K. Johnson, Molecular simulation of hydrogen adsorption in single-walled carbon nanotubes and idealized carbon slit pores, J. Chem. Phys. 110 (1999), 577-586 (pdf©)

K. A. Williams and P. C. Eklund, Monte Carlo simulations of H2 physisorption in finite-diameter carbon nanotube ropes, Chem. Phys. Lett. 320 (2000), 352-358 (pdf©)

F. Darkrim and D. Levesque, High Adsorptive Property of Opened Carbon Nanotubes at 77 K, J. Phys. Chem. B 104 (2000), 6773-6776 (pdf©)

F. Darkrim and D. Levesque, Monte Carlo simulations of hydrogen adsorption in single-walled carbon nanotubes, J. Chem. Phys. 109 (1998), 4981-4984 (pdf©)

V. V. Simonyan, P. Diep and J. K. Johnson, Molecular simulation of hydrogen adsorption in charged single-walled carbon nanotubes, J. Chem. Phys. 111 (1999), 9778-9783 (pdf©)

P. A. Gordon and R. B. Saeger, Molecular Modeling of Adsorptive Energy Storage: Hydrogen Storage in Single-Walled Carbon Nanotubes, Ind. Eng. Chem. Res. 38 (1999), 4647-4655 (pdf©)

M. Rzepka, R. Lamp and M. A. de la Casa-Lillo, Physisorption of Hydrogen on Microporous Carbon and Carbon Nanotubes, J. Phys. Chem. B 102 (1998) 10894-10898 (pdf©)

Q. Wang and J. K. Johnson, Computer Simulations of Hydrogen Adsorption on Graphite Nanofibers, J. Phys. Chem. B 103 (1999), 277-281 (pdf©)

Software

B. Smit and J. I. Siepmann, Computer simulations of the energetics and siting of n-alkanes in zeolites, J. Phys. Chem. 98 (1994), 8442-8452 (pdf©)

B. Smit, S. Karaborni and J. I. Siepmann, Computer simulations of vapour-liquid phase equilibria on n-alkanes, J. Chem. Phys. 102 (1995), 2126-2140

B. Smit, S. Karaborni and J. I. Siepmann, Erratum : Computer simulations of vapour-liquid phase equilibria on n-alkanes, J. Chem. Phys. 109 (1999), 352 (pdf©)

T. J. H. Vlugt, R. Krishna and B. Smit, Molecular simulation of adsorption isotherms for linear and branched alkanes and their mixtures in silicalite, J. Phys. Chem. B 103 (1999), 1102-1118 (pdf©)

Other interaction potentials

D. W. Brenner, Empirical potential for hydrocarbons for use in simulating the chemical vapor deposition of diamond films, Phys. Rev. B 42 (1990), 9458-9471 (pdf©)

D. W. Brenner, Erratum : Empirical potential for hydrocarbons for use in simulating the chemical vapor deposition of diamond films, Phys. Rev. B 46 (1992), 1948 (pdf©)

S. J. Stuart, A. B. Tutein and J. A. Harrison, A reactive potential for hydrocarbons with intermolecular interactions, J. Chem. Phys. 112 (2000), 6472-6486 (pdf©)

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