English version Zakład Fizyki Stosowanej, Instytut Fizyki CN-D Politechniki Śląskiej, CNT ul. Konarskiego 22B, 44-100 Gliwice
telefon: 32 237 2932, faks: 32 237 1778, e-mail: zfs@polsl.pl

Dr inż.

Maciej Krzywiecki

Adiunkt

Instytut Fizyki, pokój 108

telefon: 32 237 2001

e-mail: Maciej.Krzywiecki@polsl.pl


Zainteresowania naukowe

Publikacje

  1. M. Krzywiecki, L. Grządziel, L. Ottaviano, P. Parisse, S. Santucci, J. Szuber: XPS study of air exposed CuPc ultra-thin films deposited on Si (111) native substrates, Materials Science Poland 26 (2008) 287.
  2. P. Tomkiewicz, A. Winkler, M. Krzywiecki, T. Chasse, J. Szuber: Analysis of mechanism of carbon removal from GaAs(100) by atomic hydrogen, Applied Surface Science 254 (2008) 8035.
  3. M. Krzywiecki, L. Ottaviano, L. Grządziel, P. Parisse, S. Santucci, J. Szuber: Influence of substrate doping on the surface chemistry and morphology of Copper Phthalocyanine ultra thin films on Si(111) substrates, Thin Solid Films 517 (2009) 1630.
  4. M. Krzywiecki, L. Grządziel, H. Peisert, I. Biswas, T. Chasse, J. Szuber, X-ray Photoelectron Spectroscopy of native and RCA-treated Si(111) substrates and their influence on surface chemistry of Copper Phthalocyanine thin films, Thin Solid Films 518 (2010) 2688.
  5. L. Grządziel, M. Krzywiecki, H. Peisert, T. Chasse, J. Szuber, Influence of ambient air exposure on surface chemistry and electronic properties of thin-film CuPc sensing layers, Thin Solid Films , 519 (2011) 2187.
  6. W. Jakubik, E. Maciak, M. Urbańczyk, M. Krzywiecki, Theory of SAW gas sensor based on bi-layer conductivity changes, Procedia Engineering 25 (2011) 252-255.
  7. M. Krzywiecki, L. Grządziel, J. Bodzenta, J. Szuber, Comparative study of surface morphology of copper phthalocyanine thin films deposited on Si (111) native and RCA-cleaned substrates Thin Solid Films 519 (2012) 2187.
  8. L. Grządziel, M. Krzywiecki, H. Peisert, T. Chasse, J. Szuber, Photoemission study of the Si(111)-native SiO2/copper phthalocyanine (CuPc) ultra-thin film interface, Organic Electronics 13 (2012) 1873.
  9. W. Jakubik, M. Krzywiecki, E. Maciak, M. Urbańczyk, Bi-layer nanostructures of CuPc and Pd in SAW-type and resistance-type hydrogen gas sensors, Sensors&Actuators B: Chemical 175 (2012) 255.
  10. A. Kaźmierczak-Bałata, J. Bodzenta, M. Krzywiecki, J. Juszczyk, J. Szmidt, P. Firek, Application of scanning microscopy to study correlation between thermal properties and morphology of BaTiO3 thin films, Thin Solid Films 545 (2013) 217–221.
  11. J. Juszczyk, M. Krzywiecki, J. Bodzenta, Application of scanning thermal microscopy for investigation of thermal boundaries in multilayered photonic structures, Ultramicroscopy 135 (2013) 95–98.
  12. A. Szwajca, M. Rapp, M. Bilska, M. Krzywiecki, H. Koroniak, Fluorinated saccharides on the Si(0 0 1) surface, Applied Surface Science 274 (2013) 221-230.
  13. L. Grządziel, M. Krzywiecki, Surface states and space charge layer electronic parameters specification for long term air-exposed copper phthalocyanine thin films, Thin Solid Films 550 (2014) 361-366.
  14. M. Krzywiecki, L. Grządziel, J. Juszczyk, A. Kaźmierczak-Bałata, A. Erbe, J. Bodzenta, Correlation between morphology and local thermal properties of iron (II) phthalocyanine thin layers, Journal of Physics D Applied Physics 47 (2014) 1-9.
  15. M. Czichy, P. Wagner, L. Grządziel, M. Krzywiecki, A. Szwajca, M. Łapkowski, J. Żak, D.L. Officer, Electrochemical and photoelectronic studies on C60-pyrrolidine-functionalised poly(terthiophene), Electrochimica Acta 141 (2014) 51-60.
  16. M. Krzywiecki, L. Grządziel, Energy level alignment at the Si(1 1 1)/RCA–SiO2/copper(II)phthalocyanine ultra-thin film interface, Applied Surface Science 311 (2014) 740-748.
  17. A. Szwajca, M. Krzywiecki, D. Pluskota-Karwatka, Experimental and computational evidence for hydrogen bonding interaction between 2'-deoxyadenosine conjugate adduct and amino-terminated organic film on Si(001) Thin Solid Films 588 (2015) 78-84.
  18. M. Kwoka, M. Krzywiecki, Rheotaxial growth and vacuum oxidation—Novel technique of tin oxide deposition—In situ monitoring of oxidation process, Materials Letters 154 (2015) 1-4.
  19. M. Krzywiecki, L. Grządziel, A. Sarfraz, D. Iqbal, A. Szwajca, A. Erbe, Zinc oxide as defect-dominated material in thin films for photovoltaic applications – experimental determination of defect levels, quantification of composition, and construction of band diagram, Physical Chemistry Chemical Physics 17(15) (2015) 10004-10013.
  20. M. Krzywiecki, L. Grządziel, Quantitative correlation between air induced changes of electronic parameters and morphological features of copper phthalocyanine thin film surfaces, Materials Chemistry and Physics 149 (2015) 574-581.
  21. W. Jakubik, P. Powroźnik, J. Wrotniak, M. Krzywiecki, T. Hejczyk: Theoretical Analysis of Acoustoelectrical Sensitivity in SAW Gas Sensors, Procedia Engineering 120 (2015) 1261-1264.
  22. A. Szwajca, M. Krzywiecki, H. Koroniak, Self-assembled monolayers of partially fluorinated alcohols on Si(0 0 1): XPS and UV-photoemission study, Journal of Fluorine Chemistry 180 (2015) 248-256.
  23. M. Krzywiecki, A. Sarfraz, A. Erbe, Towards monomaterial p-n junctions: Single-step fabrication of tin oxide films and their non-destructive characterisation by angle-dependent X-ray photoelectron spectroscopy, Applied Physics Letters 107(23) (2015) 231601.
  24. L. Grządziel, M. Krzywiecki, Ambience-related adsorbates on CuPc surface - Photoemission and thermal desorption spectroscopy studies for control of organic electronics degradation processes, Synthetic Metals 210 (2015) 141-147.
  25. W. Jakubik, P. Powroźnik, J. Wrotniak, M. Krzywiecki, Theoretical analysis of acoustoelectrical sensitivity in SAW gas sensors with single and bi-layer structures, Sensors and Actuators, B: Chemical 236 (2016) 1069-1074.
  26. P. Powroźnik, M. Krzywiecki, L. Grządziel, W. Jakubik, Study of Sensing Mechanisms in Nerve Agent Sensors Based on Phthalocyanine-palladium Structures, Procedia Engineering 168 (2016) 586-589.
  27. M. Kwoka, M. Krzywiecki, Impact of air exposure and annealing on the chemical and electronic properties of the surface of SnO 2 nanolayers deposited by rheotaxial growth and vacuum oxidation, Beilstein Journal of Nanotechnology 8(1) (2017) 514-521.
  28. M. Krzywiecki, L. Grządziel, A. Sarfraz, A. Erbe, Charge transfer quantification in a SnOx /CuPc semiconductor heterostructure: Investigation of buried interface energy structure by photoelectron spectroscopies, Physical Chemistry Chemical Physics 19(19) (2017) 11816-11824.
  29. L. Grządziel, M. Krzywiecki, G. Genchev, A. Erbe, Effect of order and disorder on degradation processes of copper phthalocyanine nanolayers, Synthetic Metals 223 (2017) 199-204.
  30. P. Powroźnik, L. Grządziel, L. Jakubik, M. Krzywiecki, Sarin-simulant detection by phthalocyanine/palladium structures: From modeling to real sensor response, Sensors and Actuators, B: Chemical 273 (2018) 771-777.
  31. A. Blacha-Grzechnik, K. Piwowar, T. Zdyb, M. Krzywiecki, Formation of poly(Azure A)-C 60 photoactive layer as a novel approach in the heterogeneous photogeneration of singlet oxygen, Applied Surface Science 457 (2018) 221-228.
  32. L. Grządziel, M. Krzywiecki, A. Szwajca,(...), G. Genchev, A. Erbe, Detection of intra-band gap defects states in spin-coated sol-gel SnOx nanolayers by photoelectron spectroscopies, Journal of Physics D: Applied Physics 51(31) (2018) 315301.
  33. A. Altin, M. Krzywiecki, A. Sarfraz,(...), M. Rohwerder, A. Erbe, Cyclodextrin inhibits zinc corrosion by destabilizing point defect formation in the oxide layer, Beilstein Journal of Nanotechnology 9(1) (2018) 936-944.
  34. K. Krukiewicz, M. Krzywiecki, M.J.P Biggs, D. Janas, Chirality-sorted carbon nanotube films as high capacity electrode materials, RSC Advances 8(53) (2018) 30600-30609.
  35. M. Krzywiecki, L. Grządziel, P. Powroźnik,(...), J. Rechmann, A. Erbe, Oxide-organic heterostructures: A case study of charge transfer disturbance at a SnO2 -copper phthalocyanine buried interface, Physical Chemistry Chemical Physics 20(23) (2018) 16092-16101.
© 2008-2019 ZFS, projekt i kodowanie: AKB (na podstawie poprzedniego projektu B. Buraka i M. Szydłowskiego)
zdjęcia: M. Szydłowski, A. Domanowska, M. Szum, M. Andrzejczuk