{"id":106,"date":"2024-01-14T18:13:24","date_gmt":"2024-01-14T17:13:24","guid":{"rendered":"https:\/\/home.agh.edu.pl\/~sgogoc\/?page_id=106"},"modified":"2026-05-29T12:48:20","modified_gmt":"2026-05-29T10:48:20","slug":"106-2","status":"publish","type":"page","link":"https:\/\/thermlab.agh.edu.pl\/?page_id=106","title":{"rendered":"Thermoelectric Research Laboratory \u2013 Publications"},"content":{"rendered":"\t\t
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  1. M. Maksymuk, M. Pindel, T. Parashchuk, K. T. Wojciechowski, <\/strong>(2026). Evaluation of thermoelectric performance under realistic measurement conditions using an absolute heat flux determination method. Measurement, 282, 122031 (2026). DOI: 10.1016\/J.MEASUREMENT.2026.122031<\/a><\/span><\/li>\n
  2. A. Bohra<\/strong>, T. Parashchuk<\/strong>, M. Maksymuk<\/strong>, O. Cherniushok<\/strong>, Z. Grzesik, K.T. Wojciechowski<\/strong>, Unlocking the potential of sulfur-based thermoelectrics using interface engineering<\/em>, Chem. Eng. J., 524, 169374 (2025). DOI: 10.1016\/j.cej.2025.169374<\/a><\/span><\/li>\n
  3. T.\u00a0Parashchuk, <\/b>B. Wiendlocha, O. Cherniushok, K. Pryga, <\/b>K. Ciesielski, E. Toberer, K.T. Wojciechowski, <\/b>Multiple defect states engineering towards high thermoelectric performance in GeTe-based materials,<\/em> J. Chem. Eng, 499, 156250 (2024). DOI: 10.1016\/j.cej.2024.156250<\/a><\/span><\/li>\n
  4. O. Cherniushok, T. Parashchuk,<\/strong> R. Cardoso-Gil, Y. Grin, K.T. Wojciechowski,<\/strong> Controlled Phonon Transport via Chemical Bond Stretching and Defect Engineering: The Case Study of Filled \u03b2-Mn-Type Phases<\/em>, Inorg. Chem.\u00a0 63, 39, 18030\u201318042 (2024). DOI: 10.1021\/acs.inorgchem.4c02562<\/span><\/a><\/li>\n
  5. M. Sajdak, J. Tobola, T. Parashchuk,<\/strong> M. Krzywiecki, P. Powroznik, K.T. Wojciechowski,<\/strong> Probing hydrogen content in steel using the thermoelectric effect,<\/em> J. Chem. Eng., 485, 149735 (2024). DOI: 10.1016\/j.cej.2024.149735<\/span><\/a><\/li>\n
  6. A. Lis, K. Zazakowny, O. Cherniushok<\/strong>, J. Tobola, M. Gajewska, T. Parashchuk, K.T. Wojciechowski<\/strong>, Nanostructured Cu12+x<\/sub>Sb4<\/sub>S13<\/sub> tetrahedrites prepared by solvothermal synthesis in 1-(2-aminoethyl)piperazine for efficient thermal energy harvesting<\/em>, J. Alloys Compd., 977, 173337 (2024) IF 6.2, DOI: 10.1016\/j.jallcom.2023.173337<\/a><\/span><\/li>\n
  7. R. Knura, M. Maksymuk, T. Parashchuk, K.T. Wojciechowski<\/strong>, Achieving high thermoelectric conversion efficiency in Bi2<\/sub>Te3<\/sub>-based stepwise legs through bandgap tuning and chemical potential engineering<\/em>, Dalton Trans., 53, 123-135 (2024). DOI: 10.1039\/D3DT03061J<\/a><\/span><\/li>\n
  8. M. Maksymuk, T. Parashchuk<\/strong>, A. Burbelko, K.T. Wojciechowski<\/strong>, Thermoelectric converter with stepwise legs for high energy conversion efficiency<\/em>, J. Chem. Eng., 472, 144899 (2023).<\/li>\n
  9. T. Parashchuk, O. Cherniushok<\/strong>, O. Smitiukh, O. Marchuk, K.T. Wojciechowski<\/strong>, Structure Evolution and Bonding Inhomogeneity toward High Thermoelectric Performance in Cu2<\/sub>CoSnS4-x<\/sub>Sex<\/sub> Materials<\/em>, Chem. Mater., 35(12), pp. 4772\u20134785 (2023).<\/li>\n
  10. M. Maksymuk, K. Zazakowny, A. Lis, A. Kosonowski, T. Parashchuk, K.T. Wojciechowski<\/strong>, Development of the anodized aluminum substrates for thermoelectric energy converters<\/em>, Ceram. Int. 49, 3, 4816-4825 (2023).<\/li>\n
  11. T. Parashchuk, R. Knura, O. Cherniushok, K.T. Wojciechowski<\/strong>, Ultralow Lattice Thermal Conductivity and Improved Thermoelectric Performance in Cl-doped Bi2<\/sub>Te3-x<\/sub>Sex<\/sub> Alloys<\/em>, ACS Appl. Mater. Interfaces 14, 29, 33567\u201333579 (2022).<\/li>\n
  12. O. Cherniushok<\/strong>, R. Cardoso-Gil, T. Parashchuk,<\/strong> R. Knura<\/strong>, Yu. Grin, and K.T. Wojciechowski<\/strong>, Lone-Pair-Like Interaction and Bonding Inhomogeneity Induce Ultralow Lattice Thermal Conductivity in Filled \u03b2-Manganese-Type Phases<\/em>, Chem. Mater., 34, 14, 6389\u20136401 (2022).<\/li>\n
  13. O. Cherniushok<\/strong>, O. Smitiukh, J. Tobola, R. Knura<\/strong>, O. Marchuk, T. Parashchuk,<\/strong> K.T. Wojciechowski<\/strong>, Crystal structure and thermoelectric properties of novel quaternary Cu2<\/sub>MHf3<\/sub>S8<\/sub> (M \u2013 Mn, Fe, Co, Ni) thiospinels with low thermal conductivity<\/em>, Chem. Mater., 34, 5, 2146\u20132160 (2022).<\/li>\n
  14. K. Zazakowny, A. Kosonowski, A. Lis, O. Cherniushok, T. Parashchuk<\/strong>, J. Tobo\u0142a, K.T. Wojciechowski<\/strong>, Phase analysis and thermoelectric properties of Cu-rich tetrahedrite prepared by solvothermal synthesis<\/em>, Materials, 15(3) 849 1-16 (2022).<\/li>\n
  15. O.V. Smitiukh, O.V. Marchuk, Y.M. Kogut, V. O. Yukhymchuk, N. V. Mazur, G. L. Myronchuk, S. M. Ponedelnyk, O. I. Cherniushok, T. O. Parashchuk, O. Y. Khyzhun, K.T. Wojciechowski<\/strong>, A. O. Fedorchuk Effect of rare-earth doping on the structural and optical properties of the Ag3<\/sub>AsS3<\/sub> crystals<\/em>, Opt. Quant. Electron., 54, 224 (2022).<\/li>\n
  16. R. Knura, T. Parashchuk<\/strong>, A. Yoshiasa, K.T. Wojciechowski<\/strong>, Evaluation of the double-tuned functionally graded thermoelectric material approach for the fabrication of n-type leg based on Pb0.75<\/sub>Sn0.25<\/sub>Te<\/em>, Appl. Phys. Lett. 119, 223902 (2021).<\/li>\n
  17. T. Parashchuk<\/strong>, B. Wiendlocha, O. Cherniushok, R. Knura<\/strong>, and K.T. Wojciechowski<\/strong>, High Thermoelectric Performance of p-Type PbTe Enabled by the Synergy of Resonance Scattering and Lattice Softening<\/em>, ACS Appl. Mater. Interfaces, 13, 41, 49027\u201349042 (2021).<\/li>\n
  18. O. Cherniushok, T. Parashchuk<\/strong>, J. Tobola, S.D.N. Luu<\/strong>, A. Pogodin, O. Kokhan, I. Studenyak, I. Barchiy, M. Piasecki, and K.T. Wojciechowski<\/strong>, Entropy-Induced Multivalley Band Structures Improve Thermoelectric Performance in p-Cu7<\/sub>P(Sx<\/sub>Se1\u2013x<\/sub>)6<\/sub> Argyrodites<\/em>, ACS Appl. Mater. Interfaces 13, 33, 39606\u201339620 (2021).<\/li>\n
  19. A. Kumar<\/strong>, P. Bhumla, T. Parashchuk<\/strong>, S. Baran, S. Bhattacharya, K.T. Wojciechowski<\/strong>, Engineering electronic structure and lattice dynamics to achieve enhanced thermoelectric performance of Mn-Sb co-doped GeTe<\/em>. Chem. Mater., 33, 10, 3611\u20133620 (2021).<\/li>\n
  20. T. Parashchuk<\/strong>, I. Horichok, A. Kosonowski, O. Cherniushok<\/strong>, P. Wyzga, G. Cempura, A. Kruk, K.T. Wojciechowski<\/strong>, Insight into the transport properties and enhanced thermoelectric performance of n-type Pb1-x<\/sub>Sbx<\/sub>Te<\/em>, J. Alloys Compd. 860, 158355 (2021).<\/li>\n
  21. R. Knura, T. Parashchuk<\/strong>, A. Yoshiasa, K.T. Wojciechowski<\/strong>, Origins of low lattice thermal conductivity of Pb1-x<\/sub>Snx<\/sub>Te alloys<\/em>, Dalt. Trans. 50, 4323-4334 (2021). IF 4.39.<\/li>\n
  22. A. Kosonowski, A. Kumar, T. Parashchuk<\/strong>, R. Cardoso-Gil, K.T. Wojciechowski<\/strong>, Thermal conductivity of PbTe-CoSb3<\/sub> bulk polycrystalline composite: role of microstructure and interface thermal resistance<\/em>, Dalt. Trans. 50, 1261-1273 (2021).<\/li>\n
  23. O. Cherniushok<\/strong>, R. Cardoso-Gil, T. Parashchuk<\/strong>, Y. Grin, K.T. Wojciechowski<\/strong>, Phase Equilibria and Thermoelectric Properties in the Pb-Ga-Te System in the Vicinity of the PbGa6<\/sub>Te10<\/sub> Phase<\/em>, Inorg. Chem. 60, 4, 2771\u20132782 (2021).<\/li>\n
  24. K.T. Wojciechowski<\/strong>, T. Parashchuk<\/strong>, B. Wiendlocha, O. Cherniushok<\/strong>, and Z. Dashevsky, Highly efficient n-type PbTe developed by advanced electronic structure engineering<\/em>, J. Mater. Chem. C, 8, 13270-13285 (2020).<\/li>\n
  25. T. Parashchuk<\/strong>, Z. Dashevsky, K.T. Wojciechowski<\/strong>. Feasibility of a high stable PbTe:In semiconductor for thermoelectric energy applications<\/em>, J. Appl. Phys. 125 245103 (2019). IF 2.328.<\/li>\n
  26. S.D.N. Luu, T. Parashchuk, A. Kosonowski<\/strong>, T.B. Phan, and K.T. Wojciechowski<\/strong>, Structural and Thermoelectric Properties of Solid-Liquid In4<\/sub>Se3<\/sub>-In Composite<\/em>, J. Electron. Matter., 48(9), 5418-5427 (2019).<\/li>\n
  27. S. Mukherjee, R. Chetty<\/strong>, P. V. Prakash Madduri, Ajaya K. Nayak, K.T. Wojciechowski<\/strong>, T. Ghosh, K. Chattopadhyay, S. Suwase and R. Chandra Mallik, Reply to the \u2018Comment on \u201cInvestigation on the structure and thermoelectric properties of CuxTe binary compounds\u201d\u2019<\/em>, Dalton Trans., 2020, 49<\/li>\n
  28. R. Chetty<\/strong>, J. Tobola, P. Klimczyk, L. Jaworska, K.T. Wojciechowski<\/strong>, Structural, electronic and thermal properties of Tex<\/sub>Co4<\/sub>Sb11.75<\/sub>Te0.25<\/sub><\/em>, Journal of Alloys and Compounds; 2019 vol. 809 pp 1\u20138.<\/li>\n
  29. S. Mukherjee, R. Chetty<\/strong>, P.\u200aV. Prakash Madduri, Ajaya K. Nayak, Krzysztof Wojciechowski<\/strong>, Tanmoy Ghosh, Kamanio Chattopadhyay, Satyam Suwase, Ramesh Chandra Mallik Investigation on the structure and thermoelectric properties of CuxTe binary compounds<\/em> Dalton Transactions ; 2019 vol. 48 iss. 3, pp. 1040\u20131050<\/li>\n
  30. P. Wyzga, I. Veremchuk, U. Burkhardt, P. Simon, Y. Grin, K.T. Wojciechowski<\/strong> Thermal stability and tuning of thermoelectric properties of Ag1-x<\/sub>Sb1+x<\/sub>Te2+x<\/sub> (0 \u2264 x \u2264 0.4) alloys<\/em> Applied Sciences (Basel) 2018 vol. 8 iss. 1 art. no. 52, s. 1\u201318.<\/li>\n
  31. S. Tippireddy, R. Chetty, K. Kumari Raut<\/strong>, M. H. Naik, P. K. Mukharjee, M. Jain, R. Nath, K.T. Wojciechowski<\/strong>, R. Chandra Mallik, Electronic and thermoelectric properties of Zn and Se double substituted tetrahedrite<\/em>, Physical Chemistry Chemical Physics, 2018 vol. 20 iss. 45, s. 28667\u201328677.<\/li>\n
  32. S. Das, R. Chetty, K.T. Wojciechowski<\/strong>, S. Suwas, R. Chandra Mallik, Thermoelectric properties of Sn doped BiCuSeO<\/em>, Applied Surface Science ; 2017 vol. 418 pt. A, s. 238-245.<\/li>\n
  33. M. Borcuch, M. Musia\u0142<\/strong>, S. Gumu\u0142a, K. Sztekler, K.T. Wojciechowski<\/strong>, Analysis of the fins geometry of a hot-side heat exchanger on the performance parameters of a thermoelectric generation system<\/em>, Applied Thermal Engineering ; 2017 vol. 127, s. 1355\u20131363.<\/li>\n
  34. M. Musia\u0142<\/strong>, M. Borcuch, K.T. Wojciechowski<\/strong> The influence of a dispersion cone on the temperature distribution in the heat exchanger of a thermoelectric generator<\/em>, Journal of Electronic Materials ; 2016 vol. 45 no. 3, s. 1517\u20131522.<\/li>\n
  35. K. Sztekler, K.T. Wojciechowski<\/strong>, Maciej Komorowski, Milena Tarnowska, The thermoelectric generators use for waste heat utilization from cement plant<\/em>, E3S Web of Conferences, 2017 vol. 14 art. no. 01031, s. 1\u201310. Energy and fuels 2016 : Krakow, Poland, September 21\u201323, 2016<\/li>\n
  36. K. Sztekler, K.T. Wojciechowski<\/strong>, M. Komorowski, The thermoelectric generators use for waste heat utilization from conventional power plant<\/em>, E3S Web of Conferences 2017 vol. 14 art. no. 01032, s. 1\u20138. Energy and fuels 2016 : Krakow, Poland, September 21\u201323, 2016<\/li>\n
  37. P. Nieroda, A. Kole\u017cy\u0144ski, M. Oszajca, J. Milczarek, K.T. Wojciechowski<\/strong> Structural and thermoelectric properties of polycrystalline p-type Mg2-x<\/sub>Lix<\/sub>Si<\/em>, Journal of Electronic Materials; 2016 vol. 45 no. 7, s. 3418\u20133426.<\/li>\n
  38. K. Januszko, A. Stabrawa, Y. Ogata, M. Tokuda, J. I. Khandaker, K.T. Wojciechowski<\/strong>, T. Mashimo Influence of sedimentation of atoms on structural and thermoelectric properties of Bi-Sb alloys<\/em>, Journal of Electronic Materials ; 2016 vol. 45 iss. 3, s. 1947\u20131955.<\/li>\n
  39. M. Lubieniecki, J. Roemer, A. Martowicz, K.T. Wojciechowski<\/strong>, Tadeusz Uhl, A multi-point measurement method for thermal characterization of foil bearings using customized thermocouples<\/em>, Journal of Electronic Materials, 2016 vol. 45 no. 3, s. 1473\u20131477.<\/li>\n
  40. J. Stockholm, K.T. Wojciechowski<\/strong>, J. Leszczy\u0144ski, K. Witek, P. Guzdek, J. Kulawik, Thermoelectric generator with an active load<\/em>, Materials Today: 2015 vol. 2 iss. 2, s. 744\u2013750.<\/li>\n
  41. A. Kolezynski, P. Nieroda, P. Jelen, M. Sitarz, K.T. Wojciechowski<\/strong> Theoretical and experimental spectroscopic studies of Bi dopant location in Mg2<\/sub>Si structure<\/em>, Vibrational Spectroscopy ; 2015 vol. 76, s. 31\u201337.<\/li>\n
  42. A. Kolezy\u0144ski, P. Nieroda, K.T. Wojciechowski<\/strong> Li doped Mg2<\/sub>S p-type thermoelectric material: theoretical and experimental study<\/em>, Computational Materials Science ; 2015 vol. 100 spec. iss. Pt. A, s. 84\u201388<\/li>\n
  43. P. Nieroda, K. Kutorasinski, J. Tobo\u0142a, K.T. Wojciechowski<\/strong> Search for resonant-like impurity in Ag-doped CoSb3<\/sub> skutterudite : theoretical and experimental study<\/em>, Journal of Electronic Materials ; 2014 vol. 43 no. 6, s. 1681\u20131688.<\/li>\n
  44. K.T. Wojciechowski<\/strong>, R. Zyba\u0142a, J. Tomankiewicz, P. Fuc, P. Lijewski, J. Wojciechowski, J. Merkisz Influence of back pressure on net efficiency of TEG generator mounted in the exhaust system of a Diesel engine<\/em>, Thermoelectrics goes automotive II : (Thermoelectrics III) \/ ed. Daniel J\u00e4nsch. \u2014 Renningen : Expert Verlag, 2013. \u2014 ISBN: 978-3-8169-3169-0. \u2014 S. 177\u2013188.<\/li>\n
  45. K.T. Wojciechowski<\/strong>, J. Merkisz, P. Fu\u0107, J. Tomankiewicz, R. Zyba\u0142a, J. Leszczynski, Piotr Lijewski, Pawe\u0142 Nieroda, Prototypical thermoelectric generator for waste heat conversion from combustion engines \u2014 Prototypowy generator termoelektryczny do konwersji odpadowej energii cieplnej z silnik\u00f3w spalinowych<\/em>, Silniki Spalinowe = Combustion Engines, 2013 R. 52 nr 3<\/li>\n
  46. J. Leszczynski, A. Kolezy\u0144ski, K.T. Wojciechowski<\/strong> Electronic and transport properties of polycrystalline Ba8<\/sub>Ga15<\/sub>Ge31<\/sub> type I clathrate prepared by SPS method<\/em>, Journal of Solid State Chemistry ; 2012 vol. 193, s. 114\u2013121.<\/li>\n
  47. S. Kolesnik, B. Dabrowski<\/strong>, O. Chmaissem, K.T. Wojciechowski<\/strong>, K. \u015awierczek Comparison of magnetic and thermoelectric properties of (Nd, Ca)BaCo2<\/sub>O5.5<\/sub> and (Nd, Ca)CoO3<\/sub><\/em>, Journal of Applied Physics ; 2012 vol. 111 iss. 7, s. 07D727-1\u201307D727-3.<\/li>\n
  48. Zh. Kormosh, A. Fedorchuk, K.T. Wojciechowski<\/strong>, N. Tataryn, O. Parasyuk, The Cu2<\/sub>FeTi3<\/sub>S8<\/sub> and Cu2<\/sub>FeZr3<\/sub>S8<\/sub> compounds: crystal structure and electroanalytical application<\/em>, Materials Science and Engineering. C, Biomimetic Materials, Sensors and Systems ; 2011 vol. 31 iss. 3, s. 540\u2013544.<\/li>\n
  49. J. Leszczynski, K.T. Wojciechowski<\/strong>, A. L. Malecki, Studies on thermal decomposition and oxidation of CoSb3<\/sub><\/em>, Journal of Thermal Analysis and Calorimetry ; 2011 vol. 105 iss. 1, s. 211\u2013222.<\/li>\n
  50. K.T. Wojciechowski<\/strong>, R. Zybala, R. Mania, High temperature CoSb3-Cu junctions<\/em>, Microelectronics Reliability ; 2011 vol. 51 iss. 7 spec. iss., s. 1198\u20131202.<\/li>\n
  51. R. Zybala, K.T. Wojciechowski<\/strong>, Anisotropy analysis of thermoelectric properties of Bi2<\/sub>Te2.9<\/sub>Se0.1<\/sub> prepared by SPS method<\/em>, : ECT2011 : 9th European Conference on Thermoelectrics : Thessaloniki, Greece, 28\u201330 September 2011 \/ eds. K.\u200aM. Paraskevopoulos, E. Hatzikraniotis. \u2014 [USA] : American Institute of Physics, cop. 2012. AIP Conference Proceedings ; ISSN 0094-243X ; vol. 1449 S. 393\u2013396.<\/li>\n
  52. M. Schmidt, K.T. Wojciechowski<\/strong>, Reinvestigation of the influence of Se impurity on the structural and thermoelectric properties of AgSbTe2<\/sub><\/em>, ECT2011 : 9th European Conference on Thermoelectrics : Thessaloniki, Greece, 28\u201330 September 2011 \/ eds. K.\u200aM. Paraskevopoulos, E. Hatzikraniotis. \u2014 [USA] : American Institute of Physics, cop. 2012. \u2014 (AIP Conference Proceedings ; ISSN 0094-243X ; vol. 1449). \u2014 ISBN: 978-0-7354-1048-0. \u2014 S. 175\u2013178.<\/li>\n
  53. K.T. Wojciechowski<\/strong>, R. Zybala, J. Leszczynski, P. Nieroda, M. Schmidt, J. Merkisz, P. Lijewski, P. Fuc, Analysis of possibilities of waste heat recovery in off-road vehicles<\/em>, ECT2011 : 9th European Conference on Thermoelectrics : Thessaloniki, Greece, 28\u201330 September 2011 \/ eds. K.\u200aM. Paraskevopoulos, E. Hatzikraniotis. \u2014 [USA] : American Institute of Physics, cop. 2012. \u2014 (AIP Conference Proceedings ; vol. 1449).<\/li>\n
  54. K.T. Wojciechowski<\/strong>, R. Zyba\u0142a, J. Leszczy\u0144ski, P. Nieroda, M. Schmidt, R. Gajerski, E. Aleksandrova, Performance characterization of high-efficiency segmented Bi2<\/sub>Te3<\/sub>\/CoSb3<\/sub> unicouples for thermoelectric generators<\/em>, ECT2011 : 9th European Conference on Thermoelectrics : Thessaloniki, Greece, 28\u201330 September 2011 \/ eds. K.\u200aM. Paraskevopoulos, E. Hatzikraniotis. \u2014 [USA] : American Institute of Physics, cop. 2012. \u2014 (AIP Conference Proceedings ; ISSN 0094-243X ; vol. 1449). \u2014 ISBN: 978-0-7354-1048-0. \u2014 S. 467\u2013470<\/li>\n
  55. Pawe\u0142 Nieroda, Rafa\u0142 Zyba\u0142a, Krzysztof T. Wojciechowski<\/strong>, Development of the method for the preparation of Mg2<\/sub>Si by SPS technique<\/em>, 9th European Conference on Thermoelectrics : Thessaloniki, Greece, 28\u201330 September 2011, eds. K.\u200aM. Paraskevopoulos, E. Hatzikraniotis. \u2014 [USA] : American Institute of Physics, cop. 2012. \u2014 (AIP Conference Proceedings S. 199\u2013202.<\/li>\n
  56. Blachowski, K. Ruebenbauer, J. Zukrowski, J. Przewoznik, K.T. Wojciechowski<\/strong>, Z. M. Stadnik, M\u00f6ssbauer spectroscopy evidence for the lack of iron magnetic moment in superconducting FeSe<\/em>, Journal of Alloys and Compounds ; 2010 vol. 494 iss. 1\u20132, s. 1\u20134.<\/li>\n
  57. K.T. Wojciechowski<\/strong>, M. Schmidt, J. Tobo\u0142a, M. Koza, A. Olech, R. Zyba\u0142a, Influence of doping on structural and thermoelectric properties of AgSbSe2<\/sub><\/em>, Journal of Electronic Materials ; ISSN 0361-5235. \u2014 2010 vol. 39 no. 9, s. 2053\u20132058.<\/li>\n
  58. K.T. Wojciechowski<\/strong>, M. Schmidt, R. Zyba\u0142a, J. Merkisz, P. Fuc, P. Lijewski, Comparison of waste heat recovery from the exhaust of a spark ignition and a diesel engine<\/em>, Journal of Electronic Materials ; 2010 vol. 39 no. 9, s. 2034\u20132038.<\/li>\n
  59. E. Godlewska, K. Zawadzka, K. Mars, R. Mania, K.T. Wojciechowski<\/strong>, A. Opoka, Protective properties of magnetron-sputtered Cr-Si layers on CoSb3<\/sub><\/em>, Oxidation of Metals ; 2010 vol. 74 iss. 3\u20134, s. 205\u2013213.<\/li>\n
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    A. Lis, <\/span>O. Cherniushok, <\/span>T. Parashchuk, K. T. Wojciechowski<\/span><\/em><\/p>\t\t\t\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/section>\n\t\t\t\t\t<\/div>\n\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/section>\n\t\t\t\t

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    Patents<\/h2>\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t
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    1. Krzysztof T. Wojciechowski, Taras Parashchuk, Mykola Maksymuk<\/strong>. Thermoelectric converter made of functionally graded materials<\/em>. Patent N PL 444240, 2023 (pending).<\/li>\n\n
    2. Krzysztof T. Wojciechowski, Taras Parashchuk, Oleksandr Cherniushok<\/strong>. Material with \u03b3-argyrodite structure for thermoelectric conversion and the method of it obtaining<\/em>. Patent N PL 441471, 2022 (pending).<\/li>\n\n
    3. K. Wojciechowski, A. Kosonowski<\/strong>, A. Slys, Spos\u00f3b otrzymywania zwi\u0105zk\u00f3w z grupy Cu-Sb-S o strukturze tetraedrytu [Method of preparation of the Cu-Sb-S compounds with tetrahedrite structure]<\/em>, P.431871, 2019-11-21<\/li>\n\n
    4. K. Wojciechowski<\/strong>, Spos\u00f3b pomiaru w\u0142a\u015bciwo\u015bci materia\u0142\u00f3w termoelektrycznych oraz sonda pomiarowa dla tego sposobu, [Method of measuring properties of thermoelectric materials and measuring probe for this method]<\/em>, Patent app. P.419240, 24.10.2016<\/li>\n\n
    5. K. Wojciechowski<\/strong>, T. W\u00f3jcik, K. Sztekler, Uk\u0142ad przetwarzania energii cieplnej gazu w elektrofiltrze \u2014 [Method for transformation of gas heat energy in electrostatic filter]<\/em>; PL 228901 B1; 2017-12-12<\/li>\n\n
    6. K. Wojciechowski<\/strong>, M. Bro\u017cek, J. W. Mietelski, K. Pytel, Spos\u00f3b i uk\u0142ad awaryjnego zasilania systemu zabezpiecze\u0144 urz\u0105dze\u0144 j\u0105drowych oraz radioizotopowy generator termoelektryczny do tego \u2014 [Method and system for emergency supply of the protection system of nuclear equipment and the radioisotope thermoelectric generator]<\/em>, PL 225363 B1; 2016-09-19.<\/li>\n\n
    7. K.T. Wojciechowski<\/strong>, K. Marsza\u0142ek A hybrid solar energy converter \u2014 Hybrider Solarenergiewandler<\/em>; European Patent Office. EP 2827383 B1 ; 2017-10-18<\/li>\n\n
    8. K.T. Wojciechowski<\/strong>, K. Marsza\u0142ek Hybrydowy konwerter energii s\u0142onecznej \u2014 [A hybrid solar energy converter]<\/em>, PL 404709, 2015-01-19.<\/li>\n\n
    9. K. Wojciechowski, R. Zyba\u0142a, Ryszard Mania<\/strong>. Wyrzutnia magnetronowa \u2014 [Magnetron gun]<\/em> Akademia G\u00f3rniczo-Hutnicza im. Stanis\u0142awa Staszica w Krakowie ; PL 218274 B1 2014-03-25<\/li>\n\n
    10. K. Wojciechowski, R. Zyba\u0142a<\/strong>, M. Schmidt Urz\u0105dzenie do wyznaczania charakterystyk modu\u0142u termoelektrycznego \u2014 [Apparatus for determination of characteristics of thermoelectric module]<\/em>; PL 217331 B1 ; 2013-11-06<\/li>\n\n
    11. Krzysztof Wojciechowski<\/strong>, Ryszard Gajerski, Juliusz Leszczy\u0144ski, Spos\u00f3b zabezpieczenia przed degradacj\u0105 wysokotemperaturow\u0105 zwi\u0105zk\u00f3w mi\u0119dzymetalicznych zawieraj\u0105cych antymon, w szczeg\u00f3lno\u015bci materia\u0142\u00f3w termoelektrycznych na bazie CoSb3<\/sub> \u2014 [Method for protecting intermetallic compounds containing antimony, particularly CoSb3<\/sub> – based thermoelectric materials against high-temperature degradation]<\/em>, PL 218276 B1, 2014-03-25<\/li>\n\n
    12. K. Wojciechowski<\/strong>, M. Schmidt, R. Zybala<\/strong>. Spos\u00f3b pomiaru wsp\u00f3\u0142czynnika Seebecka \u2014 [Seebeck coefficient measurement method]<\/em>, PL 218266 B1 2014-03-19.<\/li>\n<\/ol>\t\t\t\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/section>\n\t\t\t\t<\/div>\n\t\t","protected":false},"excerpt":{"rendered":"

      Publications M. Maksymuk, M. Pindel, T. Parashchuk, K. T. Wojciechowski, (2026). Evaluation of thermoelectric performance under realistic measurement conditions using an absolute heat flux determination method. Measurement, 282, 122031 (2026). DOI: 10.1016\/J.MEASUREMENT.2026.122031 A. Bohra, T. Parashchuk, M. Maksymuk, O. Cherniushok, Z. Grzesik, K.T. Wojciechowski, Unlocking the potential of sulfur-based thermoelectrics using interface engineering, Chem. Eng. […]<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"inline_featured_image":false,"footnotes":""},"class_list":["post-106","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/thermlab.agh.edu.pl\/index.php?rest_route=\/wp\/v2\/pages\/106","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/thermlab.agh.edu.pl\/index.php?rest_route=\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/thermlab.agh.edu.pl\/index.php?rest_route=\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/thermlab.agh.edu.pl\/index.php?rest_route=\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/thermlab.agh.edu.pl\/index.php?rest_route=%2Fwp%2Fv2%2Fcomments&post=106"}],"version-history":[{"count":41,"href":"https:\/\/thermlab.agh.edu.pl\/index.php?rest_route=\/wp\/v2\/pages\/106\/revisions"}],"predecessor-version":[{"id":1781,"href":"https:\/\/thermlab.agh.edu.pl\/index.php?rest_route=\/wp\/v2\/pages\/106\/revisions\/1781"}],"wp:attachment":[{"href":"https:\/\/thermlab.agh.edu.pl\/index.php?rest_route=%2Fwp%2Fv2%2Fmedia&parent=106"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}