Transition-Metal-Ethylene Complexes as High-Capacity Hydrogen-Storage Media

Durgun, Engin; Çiraci, S.; Zhou, Wei; Yildirim, Taner

doi:10.1103/physrevlett.97.226102

Cited by 312 publications

(231 citation statements)

References 19 publications

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“…8 In addition, the highest H 2 storage capacity of 13 wt% in a fullerene cage with twelve Li atoms capped onto the pentagonal faces was calculated. 9 This system has average adsorption energy E b = -0.075 eV/H 2 .…”

Section: Introductionmentioning

confidence: 99%

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Al doped graphene: A promising material for hydrogen storage at room temperature

Ao¹,

Jiang²,

Zhang³

et al. 2009

Journal of Applied Physics

221

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Abstract:A promising material for hydrogen storage at room temperature−Al doped graphene was proposed theoretically by using density functional theory calculation. Hydrogen storage capacity of 5.13 wt% was predicted at T = 300 K and P = 0.1 Gpa with adsorption energy E b = -0.260 eV/H 2 . This is close to the target of 6 wt% and satisfies the requirement of immobilization hydrogen with E b of -0.2 ~ -0.4 eV/H 2 at ambient temperature and modest pressure for commercial applications specified by U.S. Department of Energy. It is believed that the doped Al varies the electronic structures of both C and H 2 . The bands of H 2 overlapping with those of Al and C synchronously are the underlying mechanism of hydrogen storage capacity enhancement.

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Section: Introductionmentioning

confidence: 99%

“…[3][4][5][6][7][8][9] Thus, the storage of hydrogen molecules by carbon nanostructures is still an important issue and deserves more attention. For example, the potential of graphene as hydrogen storage materials through doping is investigated.…”

Section: Introductionmentioning

confidence: 99%

Al doped graphene: A promising material for hydrogen storage at room temperature

Ao¹,

Jiang²,

Zhang³

et al. 2009

Journal of Applied Physics

221

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“…E a , the physisorption energy of the molecule; h, the height of the molecule from the original atomic plane of substrate; d M-Sb , the minimum distance between the molecule and the substrate Sb atom. graphene [10,11]. A similar situation is expected to occur for the antimonene phases.…”

Section: Physisorption Of Molecules To Bu-sb Structurementioning

confidence: 60%

“…For example, while graphene is inert to H 2 molecules, each Ti or Li adatom adsorbed to graphene can hold 4-5 H 2 molecules providing an excellent high-capacity medium for hydrogen storage [10][11][12]. Similarly, the graphene nanoribbon attains half metallicity through the adsorption of Fe adatoms [13].…”

Section: Introductionmentioning

confidence: 99%

“…Here we consider the effect of single H, Li, B, C, N, O, Al, In, Si, P, Cl, Ti, As, and Sb adatoms, which were found to modify the properties of bare graphene [13][14][15], silicene [16,17], phosphorene [18], and MoS 2 [19] and give rise to diverse properties. In the past, physisorption of H 2 , O 2 , and H 2 O molecules has been of interest because of the oxidation-deoxidation process [20][21][22], possible hydrogen evaluation reaction [23], and hydrogen storage [10][11][12]. Owing to a large number atoms and molecules included in our study, we treated only the effects of adsorption of single (isolated) adatoms and physisorbed single molecules on the atomic structure and electronic properties of antimonene using a realistic method.…”

Section: Introductionmentioning

confidence: 99%

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Effects of adatoms and physisorbed molecules on the physical properties of antimonene

Aktürk

Çiraci

2016

Phys. Rev. B

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A recent study predicted that a 2D single layer of antimony in buckled honeycomb as well as asymmetric washboard structures, named antimonene, is stable at high temperature and displays semiconducting properties. Based on first-principles, spin-polarized density functional calculations, we investigated chemisorption of selected adatoms and physisorption of molecules on two antimonene phases. Since adspecies-adspecies interaction is minimized by using large supercells, our results mimic the effects of isolated, single adatoms or molecules. We found that molecules such as H 2 , O 2 , and H 2 O neither form strong chemical bonds nor dissociate; they are physisorbed with a weak binding energy without affecting the properties of antimonene. The adatoms, such as H, Li, B, C, N, O, Al, In, Si, P, Cl, Ti, As, and Sb, are chemisorbed with significant binding energy, whereby the atomic and electronic structures are modified locally. Boron and carbon adatoms are implemented into buckled antimonene crystal leading to a local reconstruction of the crystal. Nitrogen gives rise to Stone-Wales type defects. The localized states originating from adatoms give rise to diversity of electronic structure. The lowest conduction and highest valence bands of antimonene in asymmetric washboard structures have very high curvature. Once combined with adatom states, these bands offer a variety of features. Specific adatoms lead to spin polarization, attain magnetic moments, and can attribute a half-metallic character to antimonene.

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Hydrogen Storage in Graphene

Li¹,

Chen²

2013

Graphene Chemistry

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Transition-Metal-Ethylene Complexes as High-Capacity Hydrogen-Storage Media

Cited by 312 publications

References 19 publications

Al doped graphene: A promising material for hydrogen storage at room temperature

Al doped graphene: A promising material for hydrogen storage at room temperature

Effects of adatoms and physisorbed molecules on the physical properties of antimonene

Hydrogen Storage in Graphene

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