Christina Antonius

TL;DR: In contrast to the previously known crystalline titania photocatalysts, which are active only when excited with UV light, the amorphous semiconductors modified with platinum, rhodium, and gold chloride enable both processes also with visible light.

TL;DR: These hybrid AMM-Ti powders are catalysts for the photodegradation of 4-chlorophenol in aqueous solution when illuminated with visible or UV light, and it is suggested that the metal salt acts as a redox-active chromophore, transmitting the photogenerated charges to the amorphous matrix.

TL;DR: Amorphe, mikroporose TiO2-Hybrid Halbleiter with Ubergangsmetallen modifiziert wurden, induzieren durch photochemische Ladungstrennung einen Photostrom and katalysieren den Abbau des Wasserschadstoffs 4-Chlorphenol (das Bild zeigt den postulierten Mechanismus, Ar = 4-ClC6H4).

TL;DR: In this paper, the use of organic materials having a specific conductivity of less than 10 -2 S/cm and a nonionic charge carrier mobility greater than 10 −4 cm 2 /Vs as charge transport medium was discussed.

TL;DR: The use of organic material (I) with a specific conductivity ≤ 10 S/cm and a nonionic charge carried mobility of > 10 cm /Vs as charge transport medium is claimed, with the proviso that light absorption by I does not cause an increase in the charge carrier concn. by a factor of 10 or more as mentioned in this paper.