Wydział Chemiczny

dr inż. Paweł Karpiński

  1. D. Andrén, P. Karpinski, M. Käll, "Construction and Operation of a Light-driven Gold Nanorod Rotary Motor System," J. Vis. Exp. 136, e57947 (2018).
  2. D.G. Baranov, R. Verre, P.l Karpinski, M. Käll, "Anapole-enhanced intrinsic Raman scattering from silicon nanodisks," ACS Photonics (2018).
  3. S. Jones, D. Andrén, P. Karpinski, and M. Käll, "Photothermal Heating of Plasmonic Nano-antennas?: Influence on Trapped Particle Dynamics and Colloid Distribution," ACS Photonics (2018).
  4. N. Kumar Balla, C. Rendón-Barraza, L. M. Hoang, P. Karpinski, E. Bermúdez-Urena, and S. Brasselet, "Polarized Nonlinear Nanoscopy of Metal Nanostructures," ACS Photonics 4, 292–301 (2017).
  5. R. Verre, L. Shao, N. Odebo Länk, P. Karpinski, A. B. Yankovich, T. J. Antosiewicz, E. Olsson, and M. Käll, "Metasurfaces and Colloidal Suspensions Composed of 3D Chiral Si Nanoresonators," Adv. Mater. 29, (2017).
  6. X. Chen, P. Karpinski, V. Shvedov, A. Boes, A. Mitchell, W. Krolikowski, and Y. Sheng, "Quasi-phase matching via femtosecond laser-induced domain inversion in lithium niobate waveguides," Opt. Lett. 41, 2410 (2016).
  7. X. Chen, P. Karpinski, V. Shvedov, B. Wang, J. Trull, C. Cojocaru, A. Boes, A. Mitchell, W. Krolikowski, and Y. Sheng, "Two-dimensional domain structures in lithium niobate via domain inversion with ultrafast light," Photonics Lett. Pol. 8, 33–35 (2016).
  8. X. Chen, V. Shvedov, P. Karpinski, K. Koynov, A. Boes, A. Mitchell, J. F. Trull Silvestre, C. Cojocaru, W. Krolikowski, and Y. Sheng, "Ferroelectric Domain Patterning with Ultrafast Light," Opt. Photonics News 141102, 141102 (2016).
  9. A. Miniewicz, M. Tomkowicz, P. Karpinski, L. Sznitko, B. Mossety-Leszczak, and M. Dutkiewicz, "Light sensitive polymer obtained by dispersion of azo-functionalized POSS nanoparticles," Chem. Phys. 456, 65–72 (2015).
  10. V. Shvedov, P. Karpinski, Y. Sheng, X. Chen, W. Zhu, W. Krolikowski, and C. Hnatovsky, "Visualizing polarization singularities in Bessel-Poincaré beams," Opt. Express 23, 12444 (2015).
  11. P. Karpinski, X. Chen, V. Shvedov, C. Hnatovsky, A. Grisard, E. Lallier, B. Luther-Davies, W. Krolikowski, and Y. Sheng, "Nonlinear diffraction in orientation-patterned semiconductors," Opt. Express 23, 14903 (2015).
  12. X. Chen, P. Karpinski, V. Shvedov, K. Koynov, B. Wang, J. Trull, C. Cojocaru, W. Krolikowski, and Y. Sheng, "Ferroelectric domain engineering by focused infrared femtosecond pulses," Appl. Phys. Lett. 107, 141102 (2015).
  13. A. Miniewicz, J. Girones, P. Karpinski, B. Mossety-Leszczak, H. Galina, and M. Dutkiewicz, "Photochromic and nonlinear optical properties of azo-functionalized POSS nanoparticles dispersed in nematic liquid crystals," J. Mater. Chem. C 2, 432–440 (2014).
  14. P. Karpinski and A. Miniewicz, "Bidirectional molecular reorientation induced by localized surface plasmon," RSC Adv. 4, 2673–2677 (2014).
  15. L. Sznitko, A. Szukalski, K. Cyprych, P. Karpinski, A. Miniewicz, and J. Mysliwiec, "Surface roughness induced random lasing in bio-polymeric dye doped film," Chem. Phys. Lett. 576, 31–34 (2013).
  16. L. Sznitko, P. Karpinski, S. Bartkiewicz, A. Miniewicz, and J. Mysliwiec, "Surface relief grating formation in luminescent dye doped photochromic polymer containing azobenzene side groups," Cent. Eur. J. Phys. 11, 1024–1029 (2013).
  17. A. Tane, F. Kajzar, R. Zgarian, I. Rau, D. Grabarek, P. Karpinski, and A. Miniewicz, "Refractive index and surface relief grating formation in DNA based dye-doped films," Macromol. Res. 21, 331–337 (2013).
  18. S. Saint-Jalm, A. Miniewicz, P. Karpinski, U. Jarek-Mikulska, and Z. Galewski, "Photo-induced birefringence in a nematic liquid crystal mixture doped with light-switchable mesogenic azobenzene derivatives," J. Mol. Liq. 168, 21–27 (2012).
  19. P. Karpinski and A. Miniewicz, "Optical phase conjugation in azo-dye doped chiral liquid crystal.pdf," Appl. Phys. Lett. 101, 161108 (2012).
  20. G. Pawlik, A. C. Mitus, P. Karpinski, and A. Miniewicz, "Author ’ s personal copy Laser light-induced molecular reorientation in 90 ° twisted nematic liquid crystal?: Classic approach , Monte Carlo modeling and experiment," Opt. Mater. (Amst). 34, 1697–1703 (2012).
  21. L. Sznitko, J. Mysliwiec, P. Karpinski, K. Palewska, K. Parafiniuk, S. Bartkiewicz, I. Rau, F. Kajzar, and A. Miniewicz, "Biopolymer based system doped with nonlinear optical dye as a medium for amplified spontaneous emission and lasing," Appl. Phys. Lett. 99, 31107 (2011).
  22. P. Karpinski and A. Miniewicz, "Surface Plasmon Polariton Excitation in Metallic Layer Via Surface Relief Gratings in Photoactive Polymer Studied by the ... Surface Plasmon Polariton Excitation in Metallic Layer Via Surface Relief Gratings in Photoactive Polymer Studied by the Finite-Di," Plasmonics 6, 541–546 (2011).
  23. P. Karpinski and A. Miniewicz, "Investigation of enhancement of photoinduced reorientation of liquid-crystal molecules in the presence of azo-dye and gold nanoparticles," Epl 88, 56003 (2009).
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