Photooxidation materials

Many perfluoroaUphatic ethers and tertiary amines have been prepared by electrochemical fluorination (1 6), direct fluorination using elemental fluorine (7—9), or, in a few cases, by fluorination using cobalt trifluoride (10). Examples of lower molecular weight materials are shown in Table 1. In addition to these, there are three commercial classes of perfluoropolyethers prepared by anionic polymerization of hexafluoropropene oxide [428-59-1] (11,12), photooxidation of hexafluoropropene [116-15-4] or tetrafluoroethene [116-14-3] (13,14), or by anionic ring-opening polymeriza tion of tetrafluorooxetane [765-63-9] followed by direct fluorination (15). 

The development of so-called photodynamic therapy uses lasers for treatment of cancer. The patient is injected with a substance called hematoporphyrin derivative [68335-15-9] which is preferentially localized in cancerous tissues. The patient is later irradiated with laser light, often with a dye laser at a wavelength around 630 nm. The light energy catalyticaHy photooxidizes the hematoporphyrin derivative, releasing materials which kill the nearby cancerous tissue. Normal tissue which did not retain the chemical is not harmed. Photodynamic therapy offers promise as a new form of cancer treatment. 

Photooxidation is also observed to reduce the photoluminescence of Alq3 [174]. However, the details of the chemical pathway is not so thoroughly explored for this material. 

The chlorophylls produced by bacteria, algae and plants are a natural source of chlorins. The isolation of chlorophylls from natural material is known to be difficult because of their extreme sensitivity to various reactions, such as enolization, epimerization, allomerization, de-methoxycarbonylation, solvolysis, demctalation, dephytylation, photooxidation, etc. Often the... 

In addition to a-l-PI, there are other examples of the presence of Met(O) residues in proteins isolated from biological material. Proteins found in lens tissue are particularly susceptible to photooxidation and because of the long half-lives of these proteins, any oxidation could be especially detrimental. In this tissue, protein synthesis is localized to the outer region of the tissue and most proteins are stable for the life of the tissue - ". It is thus somewhat surprising that not only is there no Met(O) residues in the young normal human lens but even in the old normal human lens only a small amount of Met(O) residues is found . However, in the cataractous lens as much as 65% of the Met residues of the lens proteins are found in the form of Met(0) . Whether this increase in Met(O) content in these proteins is a cause or a result of the cataracts is not known. In order to determine whether the high content of Met(O) in the cataractous lens is related to a decreased activity of Met(0)-peptide reductase, the level of this enzyme was determined in normal and cataractous lenses. It can be seen from Table 9 that there are no significant differences between the levels of Met(0)-peptide reductase in normal and cataractous lenses. In spite of these results, however, it is still possible that the Met(0)-peptide... 

Colorless triarylmethane leuco materials 8 can be converted to carbon-ium ion (9)-colored materials, either by hydride abstraction or by chemical or photooxidation. In addition, some leuco compounds such as 11 can be converted to colored materials by treatment with an acid. The latter case is similar to the chemistry observed for fluoran (see Chapter 6) or phthalide (see Chapter 4) leuco compounds (Scheme 1). 

Water, methanol, and n-hexane do not influence the photooxidation of PVC (43), but the photodegradation is accelerated by ferric chloride (70,71) and certain other compounds containing iron (70,71,72). Purification of the polymer might be expected to enhance its photostability by removing deleterious impurities such as iron compounds that are derived from metal equipment. This type of result was obtained in one recent study (58) but not in others (30,59). In contrast, the photo-oxidative degradation of PVC should be enhanced by admixture of the polymer with materials that are unusually susceptible to photooxidation themselves. Such behavior has been observed for impact-modified PVC containing polybutadiene-based polyblends (69,73). 

Fluorescence Analysis of Irradiated PET and PET-co-4,4 -BPDC Yarns. The presence of a material, which emits a blue-green fluorescence, on photooxidized PET has been reported previously (2, 21). This fluorescent material, which emits at 460 nm when excited by 342 nm energy, has been proved to be monohydroxy-tere-phthalate. 

It Is well known that mechanical properties of polymeric materials are greatly deteriorated by UV exposure (2-j)). The nature of this deterioration was determined using non-strained samples which were photooxidized at 37°C. Engineering stress-strain curves as a function of UV exposure are shown in Figure 1. The numbers next to each curve represent days of UV exposure. In terms of degradation, the points of interest are ... 

Artemisinic acid can indeed be easily converted to artimisinin using conventional chemistry in three steps via reduction of the exocyclic methylene group and photooxidation of the resulting dihydroartemisinic acid, with 30% overall yield (see Scheme 9) Other artemisinin derivatives have also been prepared using artemisinic acid as the starting material. ... 

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