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[1] Dual-Site Doping and Low-Angle Grain Boundaries Lead to High Thermoelectric Performance in N-Type Bi2S3
[2] Superior high-temperature piezoelectric response of lead-free Ga-doped BiFeO3?BaTiO3 ceramic with multiphase coexistence
[3] Boosting the power factor and thermoelectric performance in eco-friendly Cu3SbS4 by twin boundary and grain boundary phase
[4] Sr2+and Co2+Co-Doped LaAlO3 Leads to Synergistic Enhancement of Electric Heating and Infrared Radiation Abilities for MEMS Light Source Application
[5] Magnetic Ni doping induced high power factor of Cu2GeSe3-based bulk materials
[6] Dense twin and domain boundaries lead to high thermoelectric performance in Sn-doped Cu3SbS4
[7] Enhanced thermoelectric properties of n-type Cl doped PbS-based materials via Bi alloying
[8] An insight into beta-Zn4Sb3 from its crystal structure, thermoelectric performance, thermal stability and graded material
[9] Multiscale structure and band configuration tuning to achieve high thermoelectric properties in n-type PbS bulks
[10]Zhang Xiangzhao. Multiscale structure and band configuration tuning to achieve high thermoelectric properties in n-type PbS bulks [期刊论文]. Nano Energy, 2020, 74: 104826
[11] Dense twin and domain boundaries lead to high thermoelectric performance in Sn-doped Cu3SbS4 [J]. Applied Physics Letters,
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