Camelia Visan scite author profile

In the framework of density functional theory (DFT) calculations we investigate the electronic and thermal properties of porous graphene (PG) structures passivated with halogen atoms as possible candidates for efficient thermoelectric devices. Armchair and zig-zag halogenated PG nanoribbons are analyzed comparatively. The electronic properties are consistent with the expected behavior for the two types of terminations, however with marked influences introduced by the different halogen atoms. Depending on the pore sizes and halogen type pseudo-gaps in the phononic band structure are visible in the low frequency range, which are particularly important for the thermal conduction at low temperatures. The gaps are systematically displaced towards lower energies as the atomic number of the halogen increases. At the same time, the electronic gap decreases, which is also essential for attaining a large figure of merit in a thermoelectric device. This indicates the possibility of tuning both electronic and thermal properties of PG structures by halogen passivation.

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Ab initio vibrational and thermal properties of carbon allotropes: Polycyclic and rectangular networks

Nemneş

Visan

2015

Computational Materials Science

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Electron transport properties of fulgide-based photochromic switches

Nemneş

Visan

2015

RSC Adv.

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Thermopower of atomic-sized würtzite AlN wires

Nemneş

Visan

Antohe

2012

Physica E: Low-dimensional Systems and Nanostructures

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Thermoelectric Properties of Graphene-Boron-Nitride Nanoribbons with Transition Metal Impurities

Visan

2014

Journal of Elec Materi

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Camelia Visan

Electronic and thermal conduction properties of halogenated porous graphene nanoribbons

Ab initio vibrational and thermal properties of carbon allotropes: Polycyclic and rectangular networks

Electron transport properties of fulgide-based photochromic switches

Thermopower of atomic-sized würtzite AlN wires

Thermoelectric Properties of Graphene-Boron-Nitride Nanoribbons with Transition Metal Impurities

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