Double Doping of BiCuSeO with Ca and Pb to Increase the Electrical Transport Properties and Reduce the Lattice Thermal Conductivity Synchronously.

A series of nearly single-phase Ca- and Pb-codoped BiCuSeO bulks are fabricated via 4 min of microwave heating and 5 min of spark plasma sintering (SPS). The phase composition, microstructure, and valence state of the samples are investigated systematically, and the effects of Ca and Pb dopants being added into the samples to the alternative Bi sites on the cooperative optimization of the electrical and thermal transport properties are discussed. After codoping, the electrical conductivity and power factor of the samples are significantly improved by synchronously optimizing the carrier concentration and carrier mobility.

Microwave Synthesis and Enhanced Thermoelectric Performance of p-Type BiPbCuFeSeO Oxyselenides.

BiCuSeO oxyselenide, one of the best oxygen-containing thermoelectric materials, is promising with great potential applications. In this work, we present a high ZT of >1.3 in BiPbCuFeSeO fabricated microwave synthesis and subsequent spark plasma sintering (SPS).

4.6 GHz lower hybrid wave power control system for EAST.

In order to achieve steady state operation in experimental advanced superconducting tokamak (EAST), a 6 MW/4.6 GHz lower hybrid current drive system with twenty-four 250 kW/4.6 GHz high power klystron amplifiers (model VKC7849A) has been developed.

High power continuous wave microwave test bench at 4.6 GHz for experimental advanced superconducting tokamak.

The lower hybrid current drive (LHCD) is an effective approach for auxiliary heating and non-inductive current drive in the experimental advanced superconducting tokamak. The 6 MW/4.6 GHz LHCD system is being designed and installed with twenty-four 250 KW/4.