Yunzhuo Lu scite author profile

Nanocomposites have become a widely popular way to assist in the enhancement of thermoelectric performance for filled skutterudites. Herein, we unveil the distinctive effect of Si doping on the classic Yb 0.3 Co 4 Sb 12 . On the one hand, the reduced Yb filling fraction is accompanied by the in-situ precipitated CoSi nanoparticles, which not only enhances the power factor in the intermediate−low temperature range but also reduces electronic thermal conductivity for decreasing the carrier concentration. On the other hand, CoSi nanoparticles intensively disrupt the phonon transport, hiding the increased lattice thermal conductivity due to reduced Yb filling fraction. Although the residual YbSb 2 second phases have an adverse effect on the thermoelectric properties, the integration effects achieve a peak ZT value of 1.37 at 823 K and increase ZT ave by 21% for the Yb 0.3 Co 4 Sb 12 /0.1Si sample.

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Yunzhuo Lu

Crack-free Fe-based amorphous coating synthesized by laser cladding

Controllable additive manufacturing of gradient bulk metallic glass composite with high strength and tensile ductility

Laser 3D printing of CoCrFeMnNi high-entropy alloy

Experimental evidence for ordered precursor foreshadowing crystal nucleation in colloidal system

Efficient Si Doping Promoting Thermoelectric Performance of Yb-Filled CoSb₃-Based Skutterudites

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Yunzhuo Lu

Crack-free Fe-based amorphous coating synthesized by laser cladding

Controllable additive manufacturing of gradient bulk metallic glass composite with high strength and tensile ductility

Laser 3D printing of CoCrFeMnNi high-entropy alloy

Experimental evidence for ordered precursor foreshadowing crystal nucleation in colloidal system

Efficient Si Doping Promoting Thermoelectric Performance of Yb-Filled CoSb3-Based Skutterudites

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Efficient Si Doping Promoting Thermoelectric Performance of Yb-Filled CoSb₃-Based Skutterudites