Dr. Thomas Schemme

Adresse

 Institut für Angewandte Physik
Corrensstrasse 2
D-48149 Muenster		 Thomasschemme Small
Raum AP 124
email t.schemme(at)uni-muenster.de
Telefon +49 251 83 36154
Fax

+49 251 83 39811
Forschungsthema: Elektrooptische Polymere
Eintrag in der WWU- Forschungsdatenbank
 

Forschungsartikel (Zeitschriften)

  • Merkel M, Schemme T, Denz C. . ‘Aperiodic biomimetic Vogel spirals as diffractive optical elements for tailored light distribution in functional polymer layers.’ Journal of Optics 23, Nr. 6. doi: 10.1088/2040-8986/abf8cc.

  • Winands T, Böckmann M, Schemme T, Timmy Ly P-M, de Jong DH, Wang Z, Denz C, Heuer A, Doltsinis NL. . ‘P3HT:DiPBI bulk heterojunction solar cells: morphology and electronic structure probed by multiscale simulation and UV/vis spectroscopy.’ Physical Chemistry Chemical Physics 18. doi: 10.1039/C5CP06704A.

  • Böckmann M, Schemme T, de Jong D H, Denz C, Heuer A, Doltsinis NL. . ‘Structure of P3HT crystals, thin films, and solutions by UV/Vis spectral analysis.’ Physical Chemistry Chemical Physics 17: 28616–28625. doi: 10.1039/c5cp03665h.

  • Schemme T, Ditte K, Travkin E, Jiang W, Wang Z, Denz C. . Perylene bisimide derivatives as innovative sensitizers for photorefractive composites.’ Proceedings of SPIE - The International Society for Optical Engineering 8435.
  • Schemme T, Ditte K, Denz C. . „Effektive Lichtverstärker: Verbundpolymere für holographische Anwendungen.“ Laborpraxis 2012.
  • Schemme T, Travkin E, Ditte K, Jiang W, Wang ZH, Denz C. . ‘TPD doped polystyrene as charge transporter in DiPBI sensitized photorefractive composites.’ Optical Materials Express 2, Nr. 6: 856–863. doi: 10.1364/OME.2.000856.
  • Ditte K, Jiang W, Schemme T, Denz C, Wang Z. . ‘Innovative Sensitizer DiPBI Outperforms PCBM.Advanced Materials 24, Nr. 16: 2104. doi: 10.1002/adma.201104381.