Photoactivator type compound

Time to Failure of Polyethylene Film Containing a Photoactivator Type Compound... 

In the oxygen-independent Type III reactions the excited/sensi-tized psoralen donates its excitation energy directly to, or reacts with, the target compound. This occurs if the substrate and the target compound (e.g., DNA) are already in close proximity or intercalated. The reactions will proceed very rapidly via the excited singlet state, and are, typically, cyclization reactions or electron-transfer between the sensitizer and the target. In addition, the psoralen can be ionized, either directly or via the excited state, and react with the target compound in the form of a radical cation. Furocoumarins are also employed in treatment of cutaneous T-cell lymphoma and some infections connected with AIDS, by so-called photopheresis processes [71, 74-76]. In this case, peripheral blood is exposed to, e.g., photoactivated (sensitized) 8-methoxypsoralen (8-MOP) in an extracorporeal flow system. This... 

As mentioned above, one type of mechanism proposed for photoactivation is that the drug is ionized by the radiation and the electron is taken up by the target compound (e.g. a nudeobase), with subsequent rearrangements, fragmentations, dimerizations,... 

Princeton Polymer Laboratories has discovered that mixtures of a metallic organic compound and a photoactivator produce a degradative effect in certain polymers that may be as much as ten fold greater than that produced by the individual compounds. The ratio of the components, type of plastic and total amount of additive are some of the important factors that affect the time to failure. Because of this strong synergistic effect, the amount of additive required is quite small, thus resulting in a very low cost, which has been estimated at less than 0.1 cent per pound of finished plastic. 

PO can be made degradable by means of additives. The types of additives include aromatic ketones (benzo-phenone and substituted benzophenones [47], qui-none), aromatic amines (trisphenylamine), polycyclic aromatic hydrocarbons (anthracene, certain dyes such as xanthene dyes), or transition metal organic compounds. The transition metal compounds of Fe, Co, Ni, Cr, Mn are widely used. Organo-soluble acetyl acetonates of many transition metals are photooxidants and transition metal carboxylates are also thermal pro-oxidants. Co acetylacetonate appears to be an effective catalyst for chemical degradation of PP in the marine environment. The preferred photoactivator system is ferric dibutyldithiocarbamate with a concentration range of 0.01. 1%. Scott has patented the use of organometallic compounds hke iron (ferric) dibutyldithiocarbamate or Ni-dibutyl-dithiocarbamate [48]. Cerium carboxylate [49] and carbon black are also used in such materials [50]. 

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