Eugen Schechtel scite author profile

PbS shares several features with the other lead chalcogenides PbX (X: Te, Se), which are good thermoelectric materials. PbS has a potential advantage in that it is quite earth abundant and inexpensive. In this work we tune the transport properties in n-type, single-phase polycrystalline PbS 1−x Cl x (x ≤ 0.008) with different carrier densities. Lead chloride provides a nearly 100% effi cient doping control up to 1.2 × 10 20 cm − 3 . The maximum zT achieved at 850 K is 0.7 with a predicted zT ∼ 1 at 1000 K. This is about twice as high as what was previously reported ( ∼ 0.4) for binary PbS. Compared with the other lead chalcogenides the higher effective mass and higher lattice thermal conductivity makes binary PbS an inferior thermoelectric material. However this study also predicts greater potential of zT improvement in PbS by material engineering such as alloying or nanostructuring compared to PbSe or PbTe. Considering their abundance and low cost, PbS based materials are quite competitive among the lead chalcogenides for thermoelectric applications. 489

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Thermoelectric properties of Sr3GaSb3 – a chain-forming Zintl compound

Zevalkink¹,

Zeier²,

Pomrehn³

et al. 2012

Energy Environ. Sci.

138

126

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Inspired by the promising thermoelectric properties in the Zintl compounds Ca 3 AlSb 3 and Ca 5 Al 2 Sb 6 , we investigate here the closely related compound Sr 3 GaSb 3 . Although the crystal structure of Sr 3 GaSb 3 contains infinite chains of corner-linked tetrahedra, in common with Ca 3 AlSb 3 and Ca 5 Al 2 Sb 6 , it has twice as many atoms per unit cell (N ¼ 56). This contributes to the exceptionally low lattice thermal conductivity (k L ¼ 0.45 W m À1 K À1 at 1000 K) observed in Sr 3 GaSb 3 samples synthesized for this study by ball milling followed by hot pressing. High temperature transport measurements reveal that Sr 3 GaSb 3 is a nondegenerate semiconductor (consistent with Zintl charge-counting conventions) with relatively high p-type electronic mobility ($30 cm 2 V À1 s À1 at 300 K). Density functional calculations yield a band gap of $0.75 eV and predict a light valence band edge ($0.5 m e ), in qualitative agreement with experiment. To rationally optimize the electronic transport properties of Sr 3 GaSb 3 in accordance with a single band model, doping with Zn 2+ on the Ga 3+ site was used to increase the p-type carrier concentration. In optimally hole-doped Sr 3 Ga 1Àx Zn x Sb 3 (x ¼ 0.0 to 0.1), we demonstrate a maximum figure of merit of greater than 0.9 at 1000 K.

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TiO₂ Nanoparticles Functionalized with Non-innocent Ligands Allow Oxidative Photocyanation of Amines with Visible/Near-Infrared Photons

et al. 2018

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Photosynthesis is an efficient mechanism for converting solar light energy into chemical energy. We report on a strategy for the aerobic photocyanation of tertiary amines with visible and near-infrared (NIR) light. Panchromatic sensitization was achieved by functionalizing TiO 2 with a 2methylisoquinolinium chromophore, which captures essential features of the extended π-system of 2,7-diazapyrenium (DAP 2+ ) dications or graphitic carbon nitride. Two phenolic hydroxy groups make this ligand highly redoxactive and allow for efficient surface binding and enhanced electron transfer to the TiO 2 surface. Non-innocent ligands have energetically accessible levels that allow redox reactions to change their charge state. Thus, the conduction band is sufficiently high to allow photochemical reduction of molecular oxygen, even with NIR light. The catalytic performance (up to 90% chemical yield for NIR excitation) of this panchromatic photocatalyst is superior to that of all photocatalysts known thus far, enabling oxidative cyanation reactions to the corresponding α-cyanated amines to proceed with high efficiency. The discovery that the surface-binding of redox-active ligands exhibits enhanced light-harvesting in the red and NIR region opens up the way to improve the overall yields in heterogeneous photocatalytic reactions. Thus, this class of functionalized semiconductors provides the basis for the design of new photocatalysts containing non-innocent donor ligands. This should increase the molar extinction coefficient, permitting a reduction of nanoparticle catalyst concentration and an increase of the chemical yields in photocatalytic reactions.

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Gram-scale selective synthesis of WO_3−x nanorods and (NH₄)_xWO₃ ammonium tungsten bronzes with tunable plasmonic properties

et al. 2021

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Thermoelectric properties of Zn-doped Ca3AlSb3

et al. 2012

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Polycrystalline samples of Ca 3 Al 1Àx Zn x Sb 3 , with x ¼ 0.00, 0.01, 0.02, and 0.05 were synthesized via a combined ball milling and hot pressing technique and the influence of zinc as a dopant on the thermoelectric properties was studied and compared to the previously reported transport properties of sodium-doped Ca 3 AlSb 3 . Consistent with the transport in the sodium-doped material, substitution of aluminum with zinc leads to p-type carrier conduction that can be sufficiently explained with a single parabolic band model. It is found that, while exhibiting higher carrier mobilities, the doping effectiveness of zinc is lower than that of sodium and the optimum carrier concentration for a maximum figure of merit zT is not reached in this study. We find that the grain size influences the carrier mobility, carrier concentration, and lattice thermal conductivity, leading to improved properties at intermediate temperatures, and highlighting a possible approach for improved figures of merit in this class of materials.

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Eugen Schechtel

High Thermoelectric Efficiency of n‐type PbS

Thermoelectric properties of Sr3GaSb3 – a chain-forming Zintl compound

TiO₂ Nanoparticles Functionalized with Non-innocent Ligands Allow Oxidative Photocyanation of Amines with Visible/Near-Infrared Photons

Gram-scale selective synthesis of WO_3−x nanorods and (NH₄)_xWO₃ ammonium tungsten bronzes with tunable plasmonic properties

Thermoelectric properties of Zn-doped Ca3AlSb3

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Eugen Schechtel

High Thermoelectric Efficiency of n‐type PbS

Thermoelectric properties of Sr3GaSb3 – a chain-forming Zintl compound

TiO2 Nanoparticles Functionalized with Non-innocent Ligands Allow Oxidative Photocyanation of Amines with Visible/Near-Infrared Photons

Gram-scale selective synthesis of WO3−x nanorods and (NH4)xWO3 ammonium tungsten bronzes with tunable plasmonic properties

Thermoelectric properties of Zn-doped Ca3AlSb3

Contact Info

Product

Resources

About

TiO₂ Nanoparticles Functionalized with Non-innocent Ligands Allow Oxidative Photocyanation of Amines with Visible/Near-Infrared Photons

Gram-scale selective synthesis of WO_3−x nanorods and (NH₄)_xWO₃ ammonium tungsten bronzes with tunable plasmonic properties