Humidification at 200 h UV irradiati

Humidification at 200 h UV irradiation has not altered much the value of s3



(an increase of about 30 ps; compare UV200h and UV200hW); however, the effect is significant at 800 h UV irradia- tion (an increase of about 100 ps; compare UV800h and UV800hW). This is quite understandable because at 200 h irradia- tion the hair is already in the swollen state (Fig. 1a) and resists fur- ther swelling. The marked increase in s3 in the latter case clearly shows that the increased water activity has weakened the cross- links between the chains, but still the cross-links were able to restrict the swelling (the value of s3 (1.68 ns) in this case is well be- low its value (1.83 ns) for virgin hair). A 1 h bleaching, following 800 h UV irradiation, appears to be more effective in disturbing/ modifying the cross-links (see the significant increase in both I3 and s3; compare UV800h and UV800hB) and hence results in larger swelling, but still less than that in virgin hair. Thus, post-bleaching has not been able to completely undo the UV radiation induced cross-linking. These results support the Wolfram’s [51] claim that UV exposure may, in fact, inhibit the diffusion of molecules within the hair fiber rather than aids them (due to an increased ‘porosity’ resulting from bond cleavage and subsequent swelling), as opined by many others [e.g., Ref. 5]. The single bleaching treatment that followed UV exposure re- sulted in complete fusion of the fibers into a yellowish solid mass with no chance for freely separating the fibers, an observation al- ready documented by Ruetsch et al. [7]. This implied a severe deg- radation of proteins and melanin granules by the long-term UV exposure, pre-conditioning them for easy solubilization on bleaching.
3.1.3. Effect of bleaching on virgin hair Fig. 3a–c depict the variation of s3, I3, and Fv respectively with bleaching time. The increase in free volumes size up to 3 h bleach- ing time may be due to the swelling of the polymer network. Asso- ciated with this, there is a marginal decrease in intensity I3, which may be due to fusion of some of the adjacent free volume cavities.
It is known that bleaching treatment primarily brings about the oxidation of the sulfur-containing amino acids by way of disulfide bond fission, probably by the S–S fission route [4]. This makes the fiber hydrophilic and porous, which aid swelling. Extensive bleach- ing, however, decreases s3 and increases I3, which is indicative of some sort of electrostatic interactions being established between the hydrophilic ends of the polymer chain segments.
3.1.4. Effect of UV radiation on bleached hair Fig. 4a–c depict the variation of s3, I3, and Fv respectively of bleached hair with UV exposure time. Comparison of these graphs with those for UV exposed virgin hair (Fig. 1a–c) shows distinct dif- ferences in the response of the two samples towards UV influence. Initial swelling of the fiber is not seen in the ‘bleached + UV irradi- ated’ hair, instead, the value of s3 decreases right from the begin- ning and reaches its minimum value, dropping by about 230 ps, in just 200 h of irradiation time i.e. only about one-third of the time needed in the case of virgin hair. Thus, here also, cross-linking forces the polymer segments to come closer and this effect
Fig. 2. Effect of humidification and bleaching on o-Ps lifetime s3 and intensity I3 of UV irradiated virgin hair sample. Here, UV200h represents a 200h UV irradiated hair; UV200hW is a 200h UV exposed + humidified hair; UV800hB is a 800h UV exposed + bleached (1h) hair.
Fig. 3. Variation of (a) o-Ps lifetime s3 (free volume hole size Vf), (b) o-Ps intensity I3, and (c) fractional free volume Fv as a function of bleaching time.
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