Substitutional doping of symmetrical small fullerene dimers

Kaur, Sandeep; Sharma, Amrish; Sharma, Hitesh; Dhiman, Shobhna; Mudahar, Isha

doi:10.1002/qua.26019

Cited by 11 publications

(7 citation statements)

References 53 publications

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“…When two C 20 fullerenes are approximately connected form a (C 20 ) 2 dimer. Fullerene dimers have wide consideration, due to their unique structures and properties [4][5][6] .…”

Section: The Impact Of Fe Atom On the Spin-filter And Spin Thermoelecmentioning

confidence: 99%

The impact of Fe atom on the spin-filter and spin thermoelectric properties of Au-Fe@C20-Au monomer and dimer systems

Khalatbari

Vishkayi

Soleimani

2020

Sci Rep

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Based on density functional theory and non-equilibrium Green’s function formalism, we explore the effect of Fe atom in Au-Fe@C20-Au monomer and dimer systems in comparison with the C20 fullerene molecular junctions. We calculate the spin-dependent transmission coefficient, spin polarization and also their spin thermoelectric coefficients to investigate magnetic properties in the system. Our results indicate that the presence of Fe atoms enhances substantially the spin-filter and increases the spin figure of merit in the dimer system. We suggest that the Au-(Fe@C20)2-Au system is a suitable junction for designing spin-filtering and spin thermoelectric devices and eventually it is a good candidate for spintronic applications.

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“…When two C 20 fullerenes are approximately connected form a (C 20 ) 2 dimer. Fullerene dimers have wide consideration, due to their unique structures and properties [4][5][6] .…”

Section: The Impact Of Fe Atom On the Spin-filter And Spin Thermoelecmentioning

confidence: 99%

The impact of Fe atom on the spin-filter and spin thermoelectric properties of Au-Fe@C20-Au monomer and dimer systems

Khalatbari

Vishkayi

Soleimani

2020

Sci Rep

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“…There are many theoretical papers devoted to the structure-energy and structureproperty relationships of the two-and multicage fullerene nanostructures [1,11,[15][16][17][18][19][20][21][22][23][24][25][26][27][28]. In these works, mainly the quantum chemical techniques (e.g., density functional theory methods, DFT) are applied to the fullerene dimer/oligomer nanostructures.…”

Section: Introductionmentioning

confidence: 99%

Covalently Bonded Fullerene Nano-Aggregates (C60)n: Digitalizing Their Energy–Topology–Symmetry

et al. 2021

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Fullerene dimers and oligomers are attractive molecular objects with an intermediate position between the molecules and nanostructures. Due to the size, computationally assessing their structures and molecular properties is challenging, as it currently requires high-cost quantum chemical techniques. In this work, we have jointly studied energies, topological (Wiener indices and roundness), and information theoretic (information entropy) descriptors, and have obtained regularities in triad ‘energy–topology–symmetry’. We have found that the topological indices are convenient to indicating the most and least reactive atoms of the fullerene dimer structures, whereas information entropy is more suitable to evaluate odd–even effects on the symmetry of (C60)n. Quantum chemically assessed stabilities of selected C120 structures, as well as linear and zigzag (C60)n, are discussed.

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“…[ 38 ] Density functional theory has been used to study the free radical routes for the formation of the nucleobases at UB3LYP/6‐311G(d,p) level. Quite recently, Kaur and Sharma, using calculations at the same computational level, suggested possible ammonia‐mediated radical based pathways to purines (purine, hypoxanthine, adenine, guanine, isoguanine, and xanthine) from cyanamide and cyanoacetylene, [ 42 ] to cytosine and uracil from urea and cyanoacetaldehyde, [ 43 ] and to noncanonical nucleobases (barbituric acid, cyanuric acid, melamine, and 2,4,6‐triaminopyrimidine) from cyanamide, urea, and malonic acid. [ 44 ]…”

Section: Introductionmentioning

confidence: 99%

Self‐catalytic mechanism of prebiotic reactions: From formamide to purine bases

Slavova

Enchev

2020

Int J of Quantum Chemistry

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Complete reaction pathway of prebiotic reactions for formation of the purine nucleobases adenine, hypoxanthine, guanine, isoguanine, 2,6‐diaminopurine, and xanthine from pure formamide are presented. All reactants (hydrogen cyanide, ammonia, water, formic acid, urea) and catalysts (formamide and formimidic acid) needed in the self‐catalyzed reactions are available from a starting compound, formamide. The required raw materials are obtained by partial decomposition of formamide.

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Substitutional doping of symmetrical small fullerene dimers

Cited by 11 publications

References 53 publications

The impact of Fe atom on the spin-filter and spin thermoelectric properties of Au-Fe@C20-Au monomer and dimer systems

The impact of Fe atom on the spin-filter and spin thermoelectric properties of Au-Fe@C20-Au monomer and dimer systems

Covalently Bonded Fullerene Nano-Aggregates (C60)n: Digitalizing Their Energy–Topology–Symmetry

Self‐catalytic mechanism of prebiotic reactions: From formamide to purine bases

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