The composition and antioxidant activities of two polysaccharides PFCAⅢ and PFCCⅠ, isolated from Fructus corni, have been investigated. The monosaccharide components of PFCAⅢ were found to be rhamnose, arabinose and glucose in a molar ratio of 13.74: 50.54: 35.72, whilst PFCCⅠ was found to consist of xylose and glucose in a molar ratio of 18.8: 81.2. The weight-average molecular weights of PFCAⅢ and PFCCⅠwere 1.74×104 and 7.57×104 respectively. The polysaccharides showed potential antioxidant activity by scavenging superoxide anion (O2−∙) and hydroxyl free radicals (OH∙) and this was confirmed by their ability to inhibit oxidation of axunge and gingili. The concentrations required to scavenge 50% of hydroxyl free radicals (EC50) of PFCAⅢ and PFCCⅠ were 430μg/ml and 80μg/ml respectively, and the extents of scavenging O2−∙ by 500μg PFCAⅢ and PFCCⅠwere 15.9% and 68.0% respectively. The polysaccharide PFCCⅠ shows much more significant antioxidant activity than PFCAⅢ. PFCCⅠ was mainly linked with β(1→4)-D-glucosyl with side chains including 1-linked β-D-Glc, 1,6-linked β-D-Glc and 1,4-linked β-D-Xyl with branching points at C-6 of 1,4-linked Glc in main chain. It had the potential to be exploited by the food and pharmaceutical industries in the future with further research on this polysaccharide.
BCN–TiO2 was prepared by doping Ti(OH)4 with graphite-like structure BCN in an annealing process at 400[°C] for 2[h]. The catalyst samples were characterized by X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS) and scanning electron microscope (SEM). Graphite-like structure BCN was detected by XRD. The results showed that with graphite-like structure BCN doped in, the crystal size became smaller than pure TiO2. Also B, C, N were detected in crystal lattice of TiO2, in which Boron was in the form of Bx+, Carbon substituted some of the lattice oxygen atoms as Ti-C, and Nitrogen was in the form of Ti-N and Ti-O-N.
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