Literatursammlung

Unsere Literaturzitate sollen nur einige Beispiele für die wichtigsten Anwendungen der aktuellen Porphyrinchemie sein. Sie erhebt nicht den Anspruch auf Vollständigkeit und Relevanz bei den einzelnen angegebenen Anwendungen. Wir möchten mit diesem Service unserem Kunden nur ein wenig helfen in das spannende Gebiet der Erforschung und Anwendung von Porphyrine tiefer einzusteigen
Medizinische Anwendungen

1. Photodynamische Tumortherapie / Diagnostik (PDT)

Bonett R., Photosensitizers of the porphyrin and phthalocyanine series for photodynamic therapy, Chemical Society Reviews, 1995, 19-33

Jori G., Tumor photosensitizers: approaches to enhance the selectivity and efficiecy of photodynamic therapy, J. Photochem. Photobiol. B: Biol., 36,1996, 87-93

Hombrecher H. K., Schell C., Thiem J., Synthesis and investigation of a galactopyranosyl-cholesteryloxy substituted porphyrin, Bioorg. Med. Chem Lett., 6, 1996, 1199-1202

Tita, S.P.S and Perussi, J.R., The effect of porphyrins on normal and transformed mouse cell lines in the presence of visible light, Braz. J. Med. Biol. Res., 34, 2001,1331-1336

Sternberg E. D., Dolphin D., Porphyrin- based photosensitizers for use in photodynamic therapy, Tetrahedron, 54, 1998, 4151–4202

Konopka K. and Goslinski T., Photodynamic Therapy in Dentistry, J. Dent. Res., 86, 2007, 694-707

2. Antivirale Therapien

Maisch T., Bosl C., Szeimies R.-M., Lehn N. and Abels C., Photodynamic Effects of Novel XF Porphyrin Derivatieves on Prokaryotic and Eukaryotic Cells, Antimicrob. Agents Chemother., 49, 2005, 1542-1552


Brennstoffzellen

Bogdanoff P., Herrmann I., Hilgendorff M., Dorbandt I., Fiechter S. and Tributsch H., Probing Structural Effects of Pyrolysed CoTMPP-based Electrocatalysts
for Oxygen Reduction via New Preparation Strategies, J. New. Mat. Electrochem. Systems, 7, 2004, 85-92

Bang J. H., Han K., Skrabalak S. E., Kim H., Suslick K. S., Porous Carbon Supports Prepared by Ultrasonic Spray Pyrolysis for Direct Methanol Fuel Cell Electrodes, J. Phys. Chem. C, 111, 2007, 10959-10964

Sensoren
1. NO-Sensoren

Malinski, T.; Taha, Z., Nitric oxide release from a single cell measured in situ by a porphyrinic based microsensor., Nature 1992 , 358 , 676

Bedioui, F.; Trevin, S.; Albin, V.; Villegas, M.G.G.; Devynck, J., Design and characterization of chemically modified electrodes with iron(III) porphyrinic-based polymers: Study of their reactivity toward nitrites and nitric oxide in aqueous solution., Anal. Chim. Acta 1997 , 341 , 177

Diab, N.; Schuhmann, W., Electropolymerized manganese porphyrin/polypyrrole films as catalytic surfaces for the oxidation of nitric oxide., Electrochim. Acta 2001 , 47 , 265.

2. Sauerstoffsensoren


Soumya Mitra S. and Foster T. H., Photochemical Oxygen Consumption Sensitized by a Porphyrin Phosphorescent Probe in Two Model Systems, Biophys. J., 78, 2000, 2597–2605

Lee S.-K. and Okura I., Optical Sensor for Oxygen Using a Porphyrin-doped Sol–Gel Glass, Analyst, 122, 1997, 81–84

Sinaasappel M. and Ince C., Calibration of Pd-porphyrin phosphorescence for oxygen concentration measurements in vivo, J. Appl. Physiol., 81, 1996, 2297-2303

Mik E. G., van Leeuwen T. G., Raat N. J. and Ince C.,, Quantitative determination of localized tissue oxygen concentration in vivo by two-photon excitation phosphorescence lifetime measurements, J. Appl. Physiol., 97, 2004, 1962–1969


3. Künstliche Nasen

Suslick K. S., Bailey D. P., Ingison C. K., Janzen M., Kosal M. A., McNamara III W. B., Rakow N. A.; Sen A., Weaver J. J., Wilson J. B., Zhang C. and Nakagaki S., Seeing Smells: Development Of An Optoelectronic Nose, Quimica Nova, 30, 2007, 677-681

Filippini D., Alimelli A., Di Natale C., Paolesse R., D’Amico A., Lundström I., Chemical sensing with familiar devices, Angewandte Chemie Int. Ed., 45, 2006, 3800-3803

4. Drucksensitive Farben (PSP, pressure sensitive colours)


Katalysatoren


Suslick K. S.and Cook B. R., Regioselective Epoxidations of Dienes with Manganese(III) Porphyrin Catalysts, J. Chem. Soc., Chem. Commun., 1987, 200-202

Wasseraufbereitung
Molekulare Elektronik

Mark E. Thompson et al., Highly Efficient, Near-Infrared Electrophosphorescence from a Pt-Metalloporphyrin Complex, Angewandte Chemie International Edition, 46, 2007, , 1109-1112