1.  G. Grampp, M. Justinek, and S. Landgraf, "Magnetic field effects on the pyrene-dicyanobenzene system: determination of electron self-exchange rates by MARY spectroscopy", Mol. Phys. 100, 1063 (2002).

2.  M. Justinek, G. Grampp, and S. Landgraf, "Determination of electron self-exchange rate constants with MARY spectroscopy: Dependence on the fluorophore", Phys. Chem. Chem. Phys. 4, 5550 (2002).

3.  G. Grampp, M. Justinek, and S. Landgraf, "Electron self-exchange kinetics in the systems pyrene/dicyanobenzene isomers determined by MARY spectroscopy", RIKEN Review 44, 82 (2002).

4.  M. Justinek, G. Grampp, S. Landgraf, P.J. Hore and N. N. Lukzen, "Electron self-exchange kinetics determined by MARY spectroscopy: theory and experiment", J. Am. Chem. Soc. 126, 5635 (2004).

5.  G. Grampp, P. J. Hore, M. Justinek, S. Landgraf, N. N. Lukzen, "MARY spectroscopy: magnetic field effects on fluorescence intensities used for measuring electron transfer rates", Res. Chem. Intermed. 31 (7), 567 (2005)

6.  G. Grampp, M. Justinek, S. Landgraf, G. Angulo and N. Lukzen,"Viscosity dependence of rubrene fluorescence quenching by organic radicals via energy transfer", Photochem. Photobiol. Sci. 8 (11), 1595 (2009).

7.  M. Justinek und M. Fasching, "Thermische Charakterisierung eines Widerstandslötprozesses", PLUS (Produktion von Leiterplatten und Systemen) 10 (13), 2368 (2011). Download PDF

8.  M. Fasching und M. Justinek, "Thermografie: ein unverzichtbares Werkzeug bei der thermischen Analyse", TGA Journal 10/2015, 50. Download PDF

9.  M. Justinek und M. Fasching, "Thermografie – mehr als bunte Bilder", ReadING 66, 6 (2015). Download PDF