Grain refinement to improve thermoelectric and mechanical performance in n-type Bi2Te2.7Se0.3 alloys

“…The L can be determined from the experimental Seebeck coefficient using the following equation: L = 1.5 + exp[‐| S |/116]. [ 48 ] Then, the Lorenz‐corrected κ L + κ b (bipolar thermal conductivity) of all samples were calculated by κ L + κ b = κ – κ e and shown in (Figure 6c and Figure S9c, Supporting Information). The doping SbI 3 leads to an improvement of the phonon scattering and reduce the lattice thermal conductivity, also benefiting the improvement of TE performance.…”

Modulation of Vacancy Defects and Texture for High Performance n‐Type Bi₂Te₃ via High Energy Refinement

“…The L can be determined from the experimental Seebeck coefficient using the following equation: L = 1.5 + exp[‐| S |/116]. [ 48 ] Then, the Lorenz‐corrected κ L + κ b (bipolar thermal conductivity) of all samples were calculated by κ L + κ b = κ – κ e and shown in (Figure 6c and Figure S9c, Supporting Information). The doping SbI 3 leads to an improvement of the phonon scattering and reduce the lattice thermal conductivity, also benefiting the improvement of TE performance.…”

Modulation of Vacancy Defects and Texture for High Performance n‐Type Bi₂Te₃ via High Energy Refinement

“…As shown in Figure a, there is a slight increase in the total thermal conductivity when adding excess Te, due to the increase of electronic thermal conductivity (Figure b), which is calculated based on the Wiedemann–Franz law, k e = L σ T , where L is the Lorentz number, σ is the electrical conductivity, and T is the absolute temperature. L can be determined from the experimental Seebeck coefficient using the following equation: L = 1.5 + exp­[−| S |/116] . As noted in the Debye model, the Umklapp scattering mechanism is dominant for phonon scattering above the Debye temperature and the relationship between k L and T is expressed as k L = aT –1 + b …”

“…L can be determined from the experimental Seebeck coefficient using the following equation: L = 1.5 + exp[−|S|/116]. 40 As noted in the Debye model, the Umklapp scattering mechanism is dominant for phonon scattering above the Debye temperature and the relationship between k L and T is expressed as k L = aT −1 + b. 35 k L at the intrinsic excitation is first estimated by subtracting the k e from the k total within 300−350 K in this work and then extrapolating the lattice thermal conductivity at the subsequent temperature, which is presented in Figure 7c.…”

High Thermoelectric Performance of p-Type Bi_0.4Sb_1.6Te_3+x Synthesized by Plasma-Assisted Ball Milling

“…This increase in the relative intensity demonstrated that the grains are oriented along the c-axis. The broadening occurs, as seen in Figure 7 c, in between 40 and 50 of 2Ɵ indicates the grain refinement and high lattice strain [ 52 ]. The amorphization which can be observed from the decrease in the intensities of the peak has resulted from the graphite foil used during the sintering, where the increase in the intensity of the peak (1011) matched the highest peak intensity of the graphite.…”

Process Optimization of In Situ Magnetic-Anisotropy Spark Plasma Sintering of M-Type-Based Barium Hexaferrite BaFe12O19