State-of-the-art reviews and analyses of emerging research findings and achievements of thermoelectric materials over the past years
This review is focused on state-of-the-art thermoelectric materials (or thermoelements), from
which the thermoelements with the highest figures of merit (z) along with the those having …
which the thermoelements with the highest figures of merit (z) along with the those having …
High Thermoelectric Performance through Crystal Symmetry Enhancement in Triply Doped Diamondoid Compound Cu2SnSe3
The presence of high crystallographic symmetry and nanoscale defects are favorable for
thermoelectrics. With proper electronic structures, a highly symmetric crystal tends to …
thermoelectrics. With proper electronic structures, a highly symmetric crystal tends to …
Review on earth-abundant and environmentally benign Cu–Sn–X (X= S, Se) nanoparticles by chemical synthesis for sustainable solar energy conversion
This article provides a status review on the chemical synthesis, structural transformation,
morphological engineering, and band gap energy tuning of Cu–Sn–S (Se) nanoparticles …
morphological engineering, and band gap energy tuning of Cu–Sn–S (Se) nanoparticles …
[HTML][HTML] Enhanced thermoelectric performance in p-type ZrCoSb based half-Heusler alloys employing nanostructuring and compositional modulation
ZrCoSb based half-Heusler (HH) alloys have been widely studied as a p-type thermoelectric
(TE) material for power generation applications in the mid-temperature regime. However …
(TE) material for power generation applications in the mid-temperature regime. However …
Compositional tuning of ZrNiSn half-Heusler alloys: Thermoelectric characteristics and performance analysis
Nanostructuring has rejuvenated great interest in thermoelectric (TE) based power
generation by enabling enhanced performance in nano-grained TE materials over their bulk …
generation by enabling enhanced performance in nano-grained TE materials over their bulk …
Quasi-isostructural Alloying of Cu2SnSe3–Cu3SbSe4 toward Higher Thermoelectric Performance
Isostructural alloying has been regarded as an important approach to boosting
thermoelectric performance of narrow gap semiconductors through thermal conductivity …
thermoelectric performance of narrow gap semiconductors through thermal conductivity …
Enhancement of low-temperature thermoelectric performance via Pb doping in Cu3SbSe4
We investigated the synthesis protocols of the pure and Pb-doped bulk polycrystalline Cu 3
Sb 1-x Pb x Se 4 (0≤ x≤ 0.04) system and studied their crystallographic and thermoelectric …
Sb 1-x Pb x Se 4 (0≤ x≤ 0.04) system and studied their crystallographic and thermoelectric …
Thermoelectric properties of co-doped (Bi0. 98In0. 02) 2Te2. 7Se0. 3/reduced graphene oxide composites prepared by solid-state reaction
The thermoelectric properties of co-doped (Bi 0.98 In 0.02) 2 Te 2.7 Se 0.3/reduced
graphene oxide composites between 10-325 K are presented. X-ray diffraction confirms that …
graphene oxide composites between 10-325 K are presented. X-ray diffraction confirms that …
Seeing atomic-scale structural origins and foreseeing new pathways to improved thermoelectric materials
Thermoelectricity enables the direct inter-conversion between electrical energy and thermal
energy, promising for scavenging electric power from sources of waste heat and protecting …
energy, promising for scavenging electric power from sources of waste heat and protecting …
Investigations on electrical and thermal transport properties of Cu2SnSe3 with unusual coexisting nanophases
The ternary diamond-like compound Cu 2 SnSe 3 is a potential thermoelectric material. Its
Cu-Se conducting network leaves Sn as a likely doping site to optimize the carrier …
Cu-Se conducting network leaves Sn as a likely doping site to optimize the carrier …