Anzahl der Einträge: 12.
Voit, Thomas,
Cieplik, Fabian,
Regensburger, Johannes,
Hiller, Karl-Anton,
Gollmer, Anita,
Buchalla, Wolfgang und
Maisch, Tim
(2021)
Spatial Distribution of a Porphyrin-Based Photosensitizer Reveals Mechanism of Photodynamic Inactivation of Candida albicans.
Frontiers in Medicine 8 (641244), S. 1-9.
Eichner, Anja,
Gollmer, Anita,
Späth, Andreas,
Bäumler, Wolfgang,
Regensburger, Johannes,
König, Burkhard und
Maisch, Tim
(2015)
Fast and effective inactivation of Bacillus atrophaeus endospores using light-activated derivatives of vitamin B2.
Photochemical & Photobiological Sciences 14, S. 387-396.
Eichner, Anja,
Gollmer, Anita,
Späth, Andreas,
Bäumler, Wolfgang,
Regensburger, Johannes,
König, Burkhard und
Maisch, Tim
(2015)
Fast and effective inactivation of Bacillus atrophaeus endospores using light-activated derivatives of vitamin B2.
Photochemical & Photobiological Sciences 14 (2), S. 387-396.
Volltext nicht vorhanden.
Eichner, Anja,
Maisch, Tim,
Späth, Andreas,
Gollmer, Anita,
König, Burkhard ,
Regensburger, Johannes und
Bäumler, Wolfgang
(2014)
Fast and Effective Photodynamic Inactivation of Multiresistant Bacteria by Cationic Riboflavin Derivatives.
PLoS ONE 2014.
Cieplik, Fabian ,
Späth, Andreas,
Leibl, Christoph,
Gollmer, Anita,
Regensburger, Johannes,
Tabenski, Laura,
Hiller, Karl-Anton,
Maisch, Tim und
Schmalz, Gottfried
(2014)
Blue light kills Aggregatibacter actinomycetemcomitans due to its endogenous photosensitizers.
Clinical Oral Investigations 18 (7), S. 1763-1769.
Volltext nicht vorhanden.
Cieplik, Fabian ,
Späth, Andreas,
Regensburger, Johannes,
Gollmer, Anita,
Tabenski, Laura,
Hiller, Karl-Anton,
Bäumler, Wolfgang,
Maisch, Tim und
Schmalz, Gottfried
(2013)
Photodynamic biofilm inactivation by SAPYR—An exclusive singlet oxygen photosensitizer.
Free Radical Biology and Medicine 65, S. 477-487.
Volltext nicht vorhanden.
Regensburger, Johannes,
Maisch, Tim,
Knak, Alena,
Gollmer, Anita,
Felgenträger, Ariane,
Lehner, Karin und
Bäumler, Wolfgang
(2013)
UVA irradiation of fatty acids and their oxidized products substantially increases their ability to generate singlet oxygen.
Physical Chemistry Chemical Physics 15, S. 17672-17680.
Regensburger, Johannes,
Maisch, Tim,
Knak, Alena,
Gollmer, Anita,
Felgentraeger, Ariane,
Lehner, Karin und
Baeumler, Wolfgang
(2013)
UVA irradiation of fatty acids and their oxidized products substantially increases their ability to generate singlet oxygen.
Physical Chemistry Chemical Physics 15 (40), S. 17672.
Volltext nicht vorhanden.
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