2017
DOI: 10.1063/1.4979051
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Magnetothermoelectric effects in graphene and their dependence on scatterer concentration, magnetic field, and band gap

Abstract: Using a semiclassical Boltzmann transport equation (BTE) approach, we derive analytical expressions for electric and thermoelectric transport coefficients of graphene in the presence and absence of a magnetic field. Scattering due to acoustic phonons, charged impurities and vacancies are considered in the model. Seebeck (Sxx) and Nernst (N ) coefficients have been evaluated as functions of carrier density, temperature, scatterer concentration, magnetic field and induced band gap, and the results are compared w… Show more

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Cited by 7 publications
(4 citation statements)
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“…Using the Onsager reciprocity relation of the thermoelectric and electric conductivity tensors in a magnetic field, σ x x,a (α x x,a ) = σ yy,a (α yy,a ) and σ xy,a (α xy,a ) = −σ yx,a (−α yx,a ), we finally derive the expressions of the Seebeck coefficient (S x x,a ) and the Nernst signal (N a ) for ath species from Eqs. ( 18) and ( 19) [86][87][88][89]…”
Section: Thermoelectric Coefficients In An (An-)isotropic Medium At Weak Magnetic Fieldmentioning
confidence: 99%
“…Using the Onsager reciprocity relation of the thermoelectric and electric conductivity tensors in a magnetic field, σ x x,a (α x x,a ) = σ yy,a (α yy,a ) and σ xy,a (α xy,a ) = −σ yx,a (−α yx,a ), we finally derive the expressions of the Seebeck coefficient (S x x,a ) and the Nernst signal (N a ) for ath species from Eqs. ( 18) and ( 19) [86][87][88][89]…”
Section: Thermoelectric Coefficients In An (An-)isotropic Medium At Weak Magnetic Fieldmentioning
confidence: 99%
“…For Gd#4 located closest to the Dirac point, however, S yx max suddenly decreases to 24 µV K −1 , followed by the negligibly small S yx values (<1.5 µV K −1 ) in the entire temperature range for the electron‐doped samples (Figure 2f,g). For a simple 2D Dirac band, the calculation predicts that S yx is an even function of E F , showing a large positive peak at the Dirac point, [ 58,59 ] which cannot reproduce the observed electron‐hole asymmetric S yx . Considering that there are some less‐dispersive parabolic conduction bands just above E F = 0 (e.g., at the M point shown in Figure 1c), [ 48 ] the vanishingly small S yx for E F > 0 may be caused by the multi‐band effect.…”
Section: Resultsmentioning
confidence: 99%
“…The electronic excitations around the band-crossing points in TSM can be analogous to the relativistic Weyl or Dirac fermions, making it an important platform to investigate fundamental high-energy physics in condensed matter systems [3]. Besides, owing to the outstanding electronic, optical, thermal and magnetic properties, TSM can be broadly applied in some important areas, such as topological quantum computation [4], photoelectric devices [5], thermoelectric [6] and magneto thermoelectric [7] applications, catalysis [8] and so on. Thus, the prediction [9,10], material preparation and characterization [11,12] of TSM have attracted much attentions in recent years.…”
Section: Introductionmentioning
confidence: 99%
“…In metal-semimetal-metal terahertz device, owing to the excitation of Dirac fermions, when the Dirac node is tuned to E F , it shows colossal photoresponse improvement at terahertz frequency, with a room-temperature photoresponsivity of 0.52 A W −1 at 0.12 THz and 0.45 A W −1 at 0.3 THz [5]. In magneto-thermoelectric application, Nernst coefficients increases progressively as E F approaches the Dirac point and reach the maximum when they matched, exhibiting an even function at series of carrier densities and temperatures [7]. In addition, some important chemistry reactions are favored when the Dirac point meet E F , such as Diels-Alder reaction [15].…”
Section: Introductionmentioning
confidence: 99%