On enhanced hydrogen adsorption on alkali (cesium) doped C60 and effects of the quantum nature of the H2 molecule on physisorption energies

Kaiser, Alexander; Renzler, Michael; Kranabetter, Lorenz; Schwärzler, Matthias; Parajuli, Rajendra Prasad; Echt, Olof; Scheier, P.

doi:10.1016/j.ijhydene.2017.01.069

Cited by 36 publications

(24 citation statements)

References 73 publications

(101 reference statements)

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“…The excess energy would be well below the endothermicity of the reaction H2Cs + → HCs + + H (2) for which Kaiser et al have computed a value of 4.75 eV (4.48 eV if harmonic zero-point correction is included). 29 On the other hand, the solvation energy is more than sufficient to cause rapid evaporation of a few solvent molecules, thus leading to the observed anomalies in the ion abundance.…”

Section: Discussionmentioning

confidence: 99%

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Cs⁺ Solvated in Hydrogen—Evidence for Several Distinct Solvation Shells

et al. 2017

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Helium nanodroplets are doped with cesium and molecular hydrogen and subsequently ionized by electrons. Mass spectra reveal HxCs + ions that contain as many as 130 hydrogen atoms. Two features in the spectra are striking: First, the abundance of ions with an odd number of hydrogen atoms is very low; the abundance of HCs + is only 1 % that of H2Cs + . The dominance of even-numbered species is in stark contrast to previous studies of pure or doped hydrogen cluster ions. Second, the abundance of (H2)nCs + features anomalies at n = 8, 12, 32, 44, and 52. Guided by previous work on ions solvated in hydrogen and helium we assign the anomalies at n = 12, 32, 44 to the formation of three concentric, solid-like solvation shells of icosahedral symmetry around Cs + . Preliminary density functional theory calculations for n  14 are reported as well.

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Section: Discussionmentioning

confidence: 99%

“…[26][27][28] A similar methodology has been applied previously for (H2)nC60Cs + . 29 We report here only the ground state equilibrium geometries and potential energies including harmonic zero-point corrections. A proper treatment of the nuclear quantum dynamics is beyond the scope of this article.…”

Section: Experimental and Theoretical Detailsmentioning

confidence: 99%

Cs⁺ Solvated in Hydrogen—Evidence for Several Distinct Solvation Shells

et al. 2017

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“…For additional insight we now turn to other reports. Theoretical work has been limited so far to the lighter alkalis (with the exception of jellium-type calculations for C 60 fully coated with one or more layers of cesium [4,13], and recent calculations restricted to Cs monomer and dimers [33,34]). These studies reveal a delicate balance between Coulomb repulsion between atomic ions favoring uniform coverage, and metallic bonding favoring island formation [35].…”

Section: Discussionmentioning

confidence: 99%

Adsorption of sodium and cesium on aggregates of C60

et al. 2016

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Abstract.We explore the formation of C60 sodium and C60 cesium complexes in superfluid helium nanodroplets. Anomalies in mass spectra of these doped droplets reveal anomalies in the stability of ions. (C60)mCs + n ions (m 6) are particularly abundant if they contain n = 6m + 1 cesium atoms; (C60)mCs 2+ n dications (m 3 or 5) are abundant if n = 6m + 2. These findings are consistent with the notion that alkali metal atoms (A) transfer their valence electrons into the three-fold degenerate lowest unoccupied orbital of C60, resulting in particularly stable C60A6 building blocks. However, (C60)4Cs 2+ n dications display an entirely different pattern; instead of an expected anomaly at n = 6 × 4 + 2 = 26 we observe a strong odd-even alternation starting at n = 6. Also surprising is the effect of adding one H2O or CO2 molecule to (C60)mCsn mono-or dications; anomalies shift by two units as if the impurity were acting as an acceptor for two valence electrons from the alkali metal atoms.

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“…Because hydrogen is physically adsorbed on these materials, cryogenic cooling is needed to reach a volumetric energy density useful for practical applications. Computational studies indicate that the binding strength can be enhanced by decorating fullerenes with transition metals or alkali metals . Although the theoretical hydrogen weight percentages are impressive (almost 9 wt% for Sc and Ca), some of these findings are questioned by calculations that predict clustering of the transition metal atoms, which would drastically lower the maximal amount of adsorbed hydrogen.…”

Section: Introductionmentioning

confidence: 99%

Reactivity of Cobalt‐Fullerene Complexes towards Deuterium

et al. 2020

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The adsorption of molecular deuterium (D 2 ) onto charged cobalt-fullerene-complexes Co n C 60 + (n = 1-8) is measured experimentally in a few-collision reaction cell. The reactivity is strongly size-dependent, hinting at clustering of the transition metal atoms on the fullerenes. Formation and desorption rate constants are obtained from the pressure-dependent deuterogenation curves. DFT calculations indeed find that this transition metal clustering is energetically more favorable than decorating the fullerene. For n = 1, D 2 is predicted to bind molecularly and for n = 2 dissociative and molecular configurations are quasi-isoenergetic. For n = 3-8, dissociation of D 2 is thermodynamically preferred. However, reaching the ground state configuration with dissociated deuterium on the timescale of the experiment may be hindered by dissociation barriers.[a] Dr.

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On enhanced hydrogen adsorption on alkali (cesium) doped C60 and effects of the quantum nature of the H2 molecule on physisorption energies

Cited by 36 publications

References 73 publications

Cs⁺ Solvated in Hydrogen—Evidence for Several Distinct Solvation Shells

Cs⁺ Solvated in Hydrogen—Evidence for Several Distinct Solvation Shells

Adsorption of sodium and cesium on aggregates of C60

Reactivity of Cobalt‐Fullerene Complexes towards Deuterium

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On enhanced hydrogen adsorption on alkali (cesium) doped C60 and effects of the quantum nature of the H2 molecule on physisorption energies

Cited by 36 publications

References 73 publications

Cs+ Solvated in Hydrogen—Evidence for Several Distinct Solvation Shells

Cs+ Solvated in Hydrogen—Evidence for Several Distinct Solvation Shells

Adsorption of sodium and cesium on aggregates of C60

Reactivity of Cobalt‐Fullerene Complexes towards Deuterium

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Product

Resources

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Cs⁺ Solvated in Hydrogen—Evidence for Several Distinct Solvation Shells

Cs⁺ Solvated in Hydrogen—Evidence for Several Distinct Solvation Shells