Related Publications

  • "Hydrogen Interaction with Single Wall Carbon Nanotubes. A Combined Quantum–Mechanics / Molecular–Mechanics study", G. E. Froudakis, Nano Letters 1 (2001) 179.
  • "Why alkali doped Carbon Nanotubes poses high hydrogen uptake", G. E. Froudakis, Nano Letters 1 (2001) 531.
  • "Hydrogen Interaction with Carbon Nanotubes. A Review of ab–initio studies", G. E. Froudakis, Journal of Physics–Condensed Matter 14 (2002) 453.
  • "Hydrogen and Oxygen Interaction with Carbon Nanotubes", G. E. Froudakis, Encyclopedia of Nanoscience and Nanotechnology (2003).
  • "SiC nanotubes: A novel material for hydrogen storage" Mpourmpakis G, Froudakis GE, Lithoxoos GP, Samios J. Nano Letters 6 (2006) 1581.
  • "Why boron nitride nanotubes are preferable to carbon nanotubes for hydrogen storage? An ab initio theoretical study" G. Mpourmpakis, G. E. Froudakis, Catalysis Today, 120, 341–345 (2007).
  • "Carbon Nanoscrolls: A Promising Material for Hydrogen Storage" G. Mpourmpakis, E. Tylianakis and G.E. Froudakis, Nano Letters 7 (2007) 1893-1897.
  • "Hydrogen Storage in 3-D COFs. A multi-scale theoretical investigation." E. Klontzas, E. Tylianakis, G. E. Froudakis, J. Phys. Chem. C 112, (2008) 9095–9098.
  • "Improving Hydrogen Storage Capacity of MOF by Functionalization of the Organic Linker with Lithium Atoms." Klontzas, E.; Mavrandonakis, A.; Tylianakis, E.; Froudakis, G. E. Nano Letters 8 (2008) 1572–1576.
  • "Pillared Graphene: A New 3–D Network Nanostructure for Enhanced Hydrogen Storage" Dimitrakakis, G. K.; Tylianakis, E.; Froudakis, G. E. Nano Letters 8 (2008) 3166–3170.

The full list of publications can be found here