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W2022338984 abstract "We have performed semiempirical (MNDO) as well as ab initio density-functional theory calculations at $T=0$ to analyze the hydrogen storage behavior in spheroidal ${mathrm{C}}_{60}$ and ${mathrm{C}}_{82},$ and cylindrical finite-length (5,5) armchair C and BN fullerenes. We have found that, while chemisorption of individual H atoms to the external surface of the fullerenes is observed, hydrogen atoms cannot be attached to the inner wall of the structures and can only exist in a molecular form inside the fullerenes. We further find that, as a function of the symmetry of the encapsulating cavity and a delicate balance between repulsive energies among ${mathrm{H}}_{2}$ molecules inside the structures and those between ${mathrm{H}}_{2}$ molecules and the fullerene walls, molecular $({mathrm{H}}_{2}{)}_{N}$ clusters of well defined shape are formed namely: linear configurations, two-dimensional zig-zag and triangular arrays, and three-dimensional structures such as octahedral and icosahedral clusters, as well as helicoidal cylindrical-shape assemblies. In the cylindrical configurations (C and BN tubes), hydrogen atoms are placed inside the structures up to a bond breakage of the fullerene network, which allow us to estimate the maximum storage capacities of the different configurations. Actually, in our closed nanotubes, we relate the bond breakage mechanism to the development of a nonuniform hydrogen accommodation along the tubes, driven by the both highly anisotropic ${mathrm{H}}_{2}ensuremath{-}{mathrm{H}}_{2}$ and wall-${mathrm{H}}_{2}$ repulsive interactions. With increasing the number of stored ${mathrm{H}}_{2},$ tubes are found to be mainly radially deformed, a fact that reduces (up to $ensuremath{sim}13%)$ the energy difference between the highest occupied and lowest unoccupied molecular orbitals in the structures. Finally, saturation of the tube ends with molecular terminations results in stable compounds from which a density-controlled storage of hydrogen seems to be possible." @default.
W2022338984 created "2016-06-24" @default.
W2022338984 creator A5018457810 @default.
W2022338984 creator A5091588734 @default.
W2022338984 date "2002-10-29" @default.
W2022338984 modified "2023-10-12" @default.
W2022338984 title "Clustering of<mml:math xmlns:mml=http://www.w3.org/1998/Math/MathML display=inline><mml:mrow><mml:msub><mml:mrow><mml:mi mathvariant=normal>H</mml:mi></mml:mrow><mml:mrow><mml:mn>2</mml:mn></mml:mrow></mml:msub></mml:mrow></mml:math>molecules encapsulated in fullerene structures" @default.
W2022338984 cites W157163892 @default.
W2022338984 cites W1584869642 @default.
W2022338984 cites W1667683170 @default.
W2022338984 cites W1968329809 @default.
W2022338984 cites W1968664971 @default.
W2022338984 cites W1969448926 @default.
W2022338984 cites W1971271635 @default.
W2022338984 cites W1973769167 @default.
W2022338984 cites W1973774939 @default.
W2022338984 cites W1974780529 @default.
W2022338984 cites W1975062354 @default.
W2022338984 cites W1976106600 @default.
W2022338984 cites W1976508874 @default.
W2022338984 cites W1982055098 @default.
W2022338984 cites W1984025604 @default.
W2022338984 cites W1988357864 @default.
W2022338984 cites W1990021620 @default.
W2022338984 cites W1993119139 @default.
W2022338984 cites W1994379571 @default.
W2022338984 cites W1995627987 @default.
W2022338984 cites W1995766858 @default.
W2022338984 cites W1996106272 @default.
W2022338984 cites W2006787354 @default.
W2022338984 cites W2006930438 @default.
W2022338984 cites W2009392824 @default.
W2022338984 cites W2011448647 @default.
W2022338984 cites W2013146709 @default.
W2022338984 cites W2016384898 @default.
W2022338984 cites W2018631940 @default.
W2022338984 cites W2022487309 @default.
W2022338984 cites W2023271753 @default.
W2022338984 cites W2024538550 @default.
W2022338984 cites W2027053671 @default.
W2022338984 cites W2029125182 @default.
W2022338984 cites W2029993412 @default.
W2022338984 cites W2035583232 @default.
W2022338984 cites W2038796649 @default.
W2022338984 cites W2038969227 @default.
W2022338984 cites W2039186152 @default.
W2022338984 cites W2049082756 @default.
W2022338984 cites W2049487858 @default.
W2022338984 cites W2053050076 @default.
W2022338984 cites W2053465514 @default.
W2022338984 cites W2056055694 @default.
W2022338984 cites W2057747805 @default.
W2022338984 cites W2061395743 @default.
W2022338984 cites W2064705169 @default.
W2022338984 cites W2065968587 @default.
W2022338984 cites W2067315359 @default.
W2022338984 cites W2071648920 @default.
W2022338984 cites W2071864362 @default.
W2022338984 cites W2073478449 @default.
W2022338984 cites W2077101475 @default.
W2022338984 cites W2079328048 @default.
W2022338984 cites W2079473982 @default.
W2022338984 cites W2084517489 @default.
W2022338984 cites W2086957099 @default.
W2022338984 cites W2093587450 @default.
W2022338984 cites W2112754143 @default.
W2022338984 cites W2136848433 @default.
W2022338984 cites W2137042069 @default.
W2022338984 cites W3004465863 @default.
W2022338984 doi "https://doi.org/10.1103/physrevb.66.155426" @default.
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