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  • (-) Empa Laboratories = 501 Materials for Energy Conversion
  • (-) Publication Year = 2006 - 2019
  • (-) Keywords ≠ energy storage
  • (-) Empa Authors = Populoh, Sascha
  • (-) Journal ≠ Symposium V – nanoscale thermoelectric materials, transport phenomena, and applications to solid-state cooling and power generation
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A self-forming nanocomposite concept for ZnO-based thermoelectrics
Zakharchuk, K. V., Widenmeyer, M., Alikin, D. O., Xie, W., Populoh, S., Mikhalev, S. M., … Kovalevsky, A. V. (2018). A self-forming nanocomposite concept for ZnO-based thermoelectrics. Journal of Materials Chemistry A, 6(27), 13386-13396. https://doi.org/10.1039/c8ta01463a
Thermoelectric properties of [Ca<sub>2</sub>CoO<sub>3-δ</sub>][CoO<sub>2</sub>]<sub>1,62</sub> as a function of Co/Ca defects and Co<sub>3</sub>O<sub>4</sub> inclusions
Büttner, G., Populoh, S., Xie, W., Trottmann, M., Hertrampf, J., Döbeli, M., … Weidenkaff, A. (2017). Thermoelectric properties of [Ca2CoO3-δ][CoO2]1,62 as a function of Co/Ca defects and Co3O4 inclusions. Journal of Applied Physics, 121(21), 215101 (8 pp.). https://doi.org/10.1063/1.4984067
Designing strontium titanate-based thermoelectrics: insight into defect chemistry mechanisms
Kovalevsky, A. V., Aguirre, M. H., Populoh, S., Patrício, S. G., Ferreira, N. M., Mikhalev, S. M., … Frade, J. R. (2017). Designing strontium titanate-based thermoelectrics: insight into defect chemistry mechanisms. Journal of Materials Chemistry A, 5(8), 3909-3922. https://doi.org/10.1039/C6TA09860F
Exploring the thermoelectric performance of BaGd<SUB>2</SUB>NiO<SUB>5</SUB> haldane gap materials
Nasani, N., Oliveira Rocha, C. M., Kovalevsky, A. V., Irurueta, G. O., Populoh, S., Thiel, P., … Fagg, D. P. (2017). Exploring the thermoelectric performance of BaGd2NiO5 haldane gap materials. Inorganic Chemistry, 56(4), 2354-2362. https://doi.org/10.1021/acs.inorgchem.7b00049
Thermoelectric properties of dense Sb-doped SnO<sub>2</sub> ceramics
Rubenis, K., Populoh, S., Thiel, P., Yoon, S., Müller, U., & Locs, J. (2017). Thermoelectric properties of dense Sb-doped SnO2 ceramics. Journal of Alloys and Compounds, 692, 515-521. https://doi.org/10.1016/j.jallcom.2016.09.062
Electrical transportation performances of Nb–SrTiO<sub>3</sub> regulated by the anion related chemical atmospheres
Chen, J., Zhou, Y., Ke, X., Lv, Y., Li, Y., Populoh, S., … Jiang, Y. (2016). Electrical transportation performances of Nb–SrTiO3 regulated by the anion related chemical atmospheres. Materials and Design, 97, 7-12. https://doi.org/10.1016/j.matdes.2016.02.066
Nanostructured clathrates and clathrate-based nanocomposites
Christian, R., Ikeda, M., Lientschnig, G., Prochaska, L., Prokofiev, A., Tomeš, P., … Paschen, S. (2016). Nanostructured clathrates and clathrate-based nanocomposites. Physica Status Solidi A: Applications and Materials, 213(3), 784-801. https://doi.org/10.1002/pssa.201532642
Radiative heat losses in thermal conductivity measurements: a correction for linear temperature gradients
Gałązka, K., Populoh, S., Xie, W., Hulliger, J., & Weidenkaff, A. (2016). Radiative heat losses in thermal conductivity measurements: a correction for linear temperature gradients. Measurement, 90, 187-191. https://doi.org/10.1016/j.measurement.2016.04.059
Half-Heusler superlattices as model systems for nanostructured thermoelectrics
Komar, P., Jaeger, T., Euler, C., Angel, E. C., Kolb, U., Müller, M. M., … Jakob, G. (2016). Half-Heusler superlattices as model systems for nanostructured thermoelectrics. Physica Status Solidi A: Applications and Materials, 213(3), 732-738. https://doi.org/10.1002/pssa.201532445
Chemical and thermoelectric properties of hot pressed and spark plasma sintered type-I clathrate Ba&lt;sub&gt;8&lt;/sub&gt;Cu&lt;sub&gt;4.8&lt;/sub&gt;Si&lt;sub&gt;41.2&lt;/sub&gt;
Yan, X., Populoh, S., Weidenkaff, A., Rogl, P., & Paschen, S. (2016). Chemical and thermoelectric properties of hot pressed and spark plasma sintered type-I clathrate Ba8Cu4.8Si41.2. Journal of Electronic Materials, 45(3), 1840-1845. https://doi.org/10.1007/s11664-015-4242-2
Invited article: a round robin test of the uncertainty on the measurement of the thermoelectric dimensionless figure of merit of Co<SUB>0.97</SUB>Ni<SUB>0.03</SUB>Sb<SUB>3</SUB>
Alleno, E., Bérardan, D., Byl, C., Candolfi, C., Daou, R., Decourt, R., … Soulier, M. (2015). Invited article: a round robin test of the uncertainty on the measurement of the thermoelectric dimensionless figure of merit of Co0.97Ni0.03Sb3. Review of Scientific Instruments, 86(1), 11301 (9 pp.). https://doi.org/10.1063/1.4905250
Multiband transport in CoSb<SUB>3</SUB> prepared by rapid solidification
Ikeda, M., Tomeš, P., Prochaska, L., Eilertsen, J., Populoh, S., Löffler, S., … Paschen, S. (2015). Multiband transport in CoSb3 prepared by rapid solidification. Zeitschrift für Anorganische und Allgemeine Chemie, 641(11), 2020-2028. https://doi.org/10.1002/zaac.201500179
Design of SrTiO<SUB>3</SUB>-based thermoelectrics by tungsten substitution
Kovalevsky, A. V., Populoh, S., Patrício, S. G., Thiel, P., Ferro, M. C., Fagg, D. P., … Weidenkaff, A. (2015). Design of SrTiO3-based thermoelectrics by tungsten substitution. Journal of Physical Chemistry C, 119(9), 4466-4478. https://doi.org/10.1021/jp510743h
Perovskite and related oxides for energy harvesting by thermoelectricity
Populoh, S., Brunko, O., Karvonen, L., Sagarna, L., Saucke, G., Thiel, P., … Weidenkaff, A. (2015). Perovskite and related oxides for energy harvesting by thermoelectricity. In P. Granger, V. I. Parvulescu, S. Kaliaguine, & W. Prellier (Eds.), Perovskites and related mixed oxides: concepts and applications (pp. 189-210). https://doi.org/10.1002/9783527686605.ch09
Compatibility approach for the improvement of oxide thermoelectric converters for industrial heat recovery applications
Saucke, G., Populoh, S., Thiel, P., Xie, W., Funahashi, R., & Weidenkaff, A. (2015). Compatibility approach for the improvement of oxide thermoelectric converters for industrial heat recovery applications. Journal of Applied Physics, 118(3), 035106 (8 pp.). https://doi.org/10.1063/1.4926476
Charge-carrier hopping in highly conductive CaMn<SUB>1−<I>x</I></SUB><I>M<SUB>x</SUB></I>O<SUB>3−δ</SUB> thermoelectrics
Thiel, P., Populoh, S., Yoon, S., Saucke, G., Rubenis, K., & Weidenkaff, A. (2015). Charge-carrier hopping in highly conductive CaMn1−xMxO3−δ thermoelectrics. Journal of Physical Chemistry C, 119(38), 21860-21867. https://doi.org/10.1021/acs.jpcc.5b05882
Enhancement of redox- and phase-stability of thermoelectric CaMnO<SUB>3−</SUB><I><SUB>δ</SUB></I> by substitution
Thiel, P., Populoh, S., Yoon, S., & Weidenkaff, A. (2015). Enhancement of redox- and phase-stability of thermoelectric CaMnO3−δ by substitution. Journal of Solid State Chemistry, 229, 62-67. https://doi.org/10.1016/j.jssc.2015.05.013
Boosting thermoelectric performance by controlled defect chemistry engineering in ta-substituted strontium titanate
Yaremchenko, A. A., Populoh, S., Patrício, S. G., Macías, J., Thiel, P., Fagg, D. P., … Kovalevsky, A. V. (2015). Boosting thermoelectric performance by controlled defect chemistry engineering in ta-substituted strontium titanate. Chemistry of Materials, 27(14), 4995-5006. https://doi.org/10.1021/acs.chemmater.5b01389
Advanced thermoelectrics: from materials to devices
Buehler-Paschen, S., Pereira Gonçalves, A., Populoh, S., & König, J. D. (2014). Advanced thermoelectrics: from materials to devices. Physica Status Solidi A: Applications and Materials, 211(6), 1227-1228. https://doi.org/10.1002/pssa.201470240
Laser deposition and direct-writing of thermoelectric misfit cobaltite thin films
Chen, J., Palla-Papavlu, A., Li, Y., Chen, L., Shi, X., Döbeli, M., … Lippert, T. (2014). Laser deposition and direct-writing of thermoelectric misfit cobaltite thin films. Applied Physics Letters, 104(23), 231907 (5 pp.). https://doi.org/10.1063/1.4882423