Bi
 2
 Te
 3−x
 Se
 x
 series studied by resistivity and thermopower

The temperature dependence of the complex optical properties of the three-dimensional topological insulator Bi2Te2Se is reported for light polarized in the a-b planes at ambient pressure, as well as the effects of pressure at room temperature. This material displays a semiconducting character with a bulk optical gap of Eg 300 meV at 295 K. In addition to the two expected infrared-active vibrations observed in the planes, there is additional fine structure that is attributed to either the removal of degeneracy or the activation of Raman modes due to disorder. A strong impurity band located at 200 cm −1 is also observed. At and just above the optical gap, several interband absorptions are found to show a strong temperature and pressure dependence. As the temperature is lowered these features increase in strength and harden. The application of pressure leads to a very abrupt closing of the gap above 8 GPa, and strongly modifies the interband absorptions in the mid-infrared spectral range. While ab initio calculations fail to predict the collapse of the gap, they do successfully describe the size of the band gap at ambient pressure, and the magnitude and shape of the optical conductivity.

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“…The measurement of thermopower on a sample from the same batch showed that the charge carriers in the sample are electrons. 35…”

Section: Resultsmentioning

confidence: 99%

Optical properties of Bi2Te2Se at ambient and high pressures

et al. 2012

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“…compositional gradient [1] or lightly doped Bi 1.9 Tl 0.1 Te 3 samples (28 mΩcm) [17]. However, they are lower than those obtained for heavy chemical doping in the Bi 2 -Te x 3 Se x system (1-20 Ωcm for = x 0.9 1 -) [5,10,12]. It should be noted that although Bi 2 Te 2 Se has the same crystal structure as Bi 2 Te 3 and is commonly referred to as chemically doped Bi 2 Te 3 , the electronic structures of the two compounds are in fact quite different, particularly near the band edges.…”

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confidence: 76%

“…Since it does not seem realistic that insulating Bi-based bulk TI samples can be achieved by reducing only the defect density [9], it is necessary to compensate the carriers already present to push the Fermi level inside the bandgap. In Bi 2 Te 3 , compensation can be realized either by chemical doping, e.g., Bi 2 -Te x 3 Se x [5][6][7]10], or as recently proposed, by doping using irradiation-induced defects [11]. Irradiations performed on Bi 2 Te 3 at room temperature showed that the created defects act as electron donors and can thus be used to change the conduction from p-to n-type.…”

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confidence: 99%

Charge puddles in a completely compensated topological insulator

2016

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Compensation of intrinsic charges is widely used to reduce the bulk conductivity of 3D topological insulators (TIs). Here we use low temperature electron irradiation-induced defects paired with in situ electrical transport measurements to fine-tune the degree of compensation in Bi 2 Te 3 . The coexistence of electrons and holes at the point of optimal compensation can only be explained by bulk carriers forming charge puddles. These need to be considered to understand the electric transport in compensated TI samples, irrespective of the method of compensation. 0 18 (sample A) and4.4 10 19 cm −3 (sample B), respectively, as a function of electron dose Q. Similar to room temperature irradiations [11], r xx shows a maximum, which at low temperature amounts to an increase by three orders of magnitude. The maximum values of 74 and 90 mΩcm for samples A and B, respectively, are comparable to those obtained on non-metallic Bi 2 Te 3 samples (12 mΩcm) cut from crystals grown with a weak OPEN ACCESS RECEIVED

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“…The aforementioned interaction of the n-type defects with the p-type ones leads to the inaccurate determination of carrier concentration derived from volume-averaged (i.e. integral) techniques such as Seebeck coefficient measurements [15,[29][30][31]. In contrast to electrical transport methods, the NMR lineshape and T 1 measurements allow for a site-specific characterization of the electronic band structure [14] due to their proportionality to the effective mass and the carrier density.…”

Section: Resultsmentioning

confidence: 99%

Two-band model interpretation of the p- to n-transition in ternary tetradymite topological insulators

et al. 2015

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The requirement for large bulk resistivity in topological insulators has led to the design of complex ternary and quaternary phases with balanced donor and acceptor levels.A common feature of the optimized phases is that they lie close to the p-to n-transition.The tetradymite Bi 2 Te 3-x Se x system exhibits minimum bulk conductance at the ordered composition Bi 2 Te 2 Se. By combining local and integral measurements of the density of states, we find that the point of minimum electrical conductivity at x=1.0 where carriers change from hole-like to electron-like is characterized by conductivity of the mixed type.Our experimental findings, which are interpreted within the framework of a two-band model for the different carrier types, indicate that the mixed state originates from different type of native defects that strongly compensate at the crossover point.

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Bi ₂ Te _3−x Se _x series studied by resistivity and thermopower

Cited by 29 publications

References 29 publications

Optical properties of Bi2Te2Se at ambient and high pressures

Optical properties of Bi2Te2Se at ambient and high pressures

Charge puddles in a completely compensated topological insulator

Two-band model interpretation of the p- to n-transition in ternary tetradymite topological insulators

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Bi 2 Te 3−x Se x series studied by resistivity and thermopower

Cited by 29 publications

References 29 publications

Optical properties of Bi2Te2Se at ambient and high pressures

Optical properties of Bi2Te2Se at ambient and high pressures

Charge puddles in a completely compensated topological insulator

Two-band model interpretation of the p- to n-transition in ternary tetradymite topological insulators

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Product

Resources

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Bi ₂ Te _3−x Se _x series studied by resistivity and thermopower