George Froudakis
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Pillared graphene: a new 3-D network nanostructure for enhanced hydrogen storage
GK Dimitrakakis, E Tylianakis, GE Froudakis
Nano letters 8 (10), 3166-3170, 2008
Materials for hydrogen-based energy storage–past, recent progress and future outlook
M Hirscher, VA Yartys, M Baricco, JB von Colbe, D Blanchard, ...
Journal of Alloys and Compounds 827, 153548, 2020
SiC nanotubes: a novel material for hydrogen storage
G Mpourmpakis, GE Froudakis, GP Lithoxoos, J Samios
Nano letters 6 (8), 1581-1583, 2006
DarkSide-20k: A 20 tonne two-phase LAr TPC for direct dark matter detection at LNGS
CE Aalseth, F Acerbi, P Agnes, IFM Albuquerque, T Alexander, A Alici, ...
The European Physical Journal Plus 133, 1-129, 2018
Structure and stability of SiC nanotubes
M Menon, E Richter, A Mavrandonakis, G Froudakis, AN Andriotis
Physical Review B 69 (11), 115322, 2004
Modeling of thermal transport in pillared-graphene architectures
V Varshney, SS Patnaik, AK Roy, G Froudakis, BL Farmer
ACS nano 4 (2), 1153-1161, 2010
Carbon nanoscrolls: a promising material for hydrogen storage
G Mpourmpakis, E Tylianakis, GE Froudakis
Nano letters 7 (7), 1893-1897, 2007
Improving hydrogen storage capacity of MOF by functionalization of the organic linker with lithium atoms
E Klontzas, A Mavrandonakis, E Tylianakis, GE Froudakis
Nano letters 8 (6), 1572-1576, 2008
Why alkali-metal-doped carbon nanotubes possess high hydrogen uptake
GE Froudakis
Nano letters 1 (10), 531-533, 2001
From pure carbon to silicon− carbon nanotubes: an ab-initio study
A Mavrandonakis, GE Froudakis, M Schnell, M Mühlhäuser
Nano letters 3 (11), 1481-1484, 2003
Insight on the formation of chitosan nanoparticles through ionotropic gelation with tripolyphosphate
EN Koukaras, SA Papadimitriou, DN Bikiaris, GE Froudakis
Molecular pharmaceutics 9 (10), 2856-2862, 2012
Ab initio Study of the Interactions between CO2 and N‐Containing Organic Heterocycles
KD Vogiatzis, A Mavrandonakis, W Klopper, GE Froudakis
ChemPhysChem 10 (2), 374-383, 2009
Reticular Synthesis of HKUST-like tbo-MOFs with Enhanced CH4 Storage
I Spanopoulos, C Tsangarakis, E Klontzas, E Tylianakis, G Froudakis, ...
Journal of the American Chemical Society 138 (5), 1568-1574, 2016
Hydrogen storage in nanotubes & nanostructures
GE Froudakis
Materials Today 14 (7-8), 324-328, 2011
Curvature dependence of the metal catalyst atom interaction with carbon nanotubes walls
M Menon, AN Andriotis, GE Froudakis
Chemical Physics Letters 320 (5-6), 425-434, 2000
Why Li Doping in MOFs Enhances H2 Storage Capacity? A Multi-scale Theoretical Study
A Mavrandonakis, E Tylianakis, AK Stubos, GE Froudakis
The Journal of Physical Chemistry C 112 (18), 7290-7294, 2008
Why boron nitride nanotubes are preferable to carbon nanotubes for hydrogen storage?: An ab initio theoretical study
G Mpourmpakis, GE Froudakis
Catalysis today 120 (3-4), 341-345, 2007
Designing 3D COFs with enhanced hydrogen storage capacity
E Klontzas, E Tylianakis, GE Froudakis
Nano letters 10 (2), 452-454, 2010
Hydrogen interaction with carbon nanotubes: a review of ab initio studies
GE Froudakis
Journal of physics: condensed matter 14 (17), R453, 2002
Concepts for improving hydrogen storage in nanoporous materials
DP Broom, CJ Webb, GS Fanourgakis, GE Froudakis, PN Trikalitis, ...
International Journal of Hydrogen Energy 44 (15), 7768-7779, 2019
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