Higher UV-shielding ability and lower photocatalytic activity of TiO 2 @SiO 2 /APTES and its excellent performance in enhancing the photostability of poly(p-phenylene sulfide)

Higher UV-shielding ability and lower photocatalytic activity of TiO 2 @SiO 2 /APTES and its excellent performance in enhancing the photostability of poly(p-phenylene sulfide)

U–TiO 2 is successfully coated with SiO 2 and subsequently well modified by APTES, and the core–shell structure exists on TiO 2 @SiO 2 and TiO 2 @SiO 2 /APTES, which greatly reduces aggregation of the TiO 2 nanoparticles. The photocatalytic activities of U–TiO 2 , TiO 2 @SiO 2 , and TiO 2 @SiO 2 /AP...

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Veröffentlicht in:RSC advances 2017, Vol.7 (35), p.21758-21767
Hauptverfasser: Bai, Yali, Li, Zhenhuan, Cheng, Bowen, Zhang, Maliang, Su, Kunmei
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container_issue 35
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container_title RSC advances
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creator Bai, Yali
Li, Zhenhuan
Cheng, Bowen
Zhang, Maliang
Su, Kunmei
description U–TiO 2 is successfully coated with SiO 2 and subsequently well modified by APTES, and the core–shell structure exists on TiO 2 @SiO 2 and TiO 2 @SiO 2 /APTES, which greatly reduces aggregation of the TiO 2 nanoparticles. The photocatalytic activities of U–TiO 2 , TiO 2 @SiO 2 , and TiO 2 @SiO 2 /APTES are evaluated using MB decomposition. Nearly 50% of the MB is degraded after 15 min in the presence of the U–TiO 2 under UV radiation (300 W), and only 17.44% and 4.18% of the MB is degraded in the presence of the TiO 2 @SiO 2 -0.6 and TiO 2 @SiO 2 /APTES-1. However, TiO 2 @SiO 2 /APTES-0.6 and TiO 2 @SiO 2 -0.2 exhibit excellent UV absorbance capacities, and the TiO 2 @SiO 2 /APTES-0.6 achieves 80% of the UV-shielding ability of U–TiO 2 . Poly( p -phenylene sulfide) (PPS) is an easily photodegraded material and TiO 2 /PPS is more seriously photodegraded than PPS, however, the TiO 2 @SiO 2 /APTES nanoparticles can effectively protect the PPS from UV degradation, owing to their lower photocatalytic activities, higher UV-shielding abilities and easy dispersion in the PPS matrix. The breaking strength retention rate of the 1 wt% TiO 2 @SiO 2 /APTES/PPS film shows a maximum increase of 38.26%, and the breaking elongation retention rate increased by 41.64% at 2 wt% TiO 2 @SiO 2 /APTES loading. These results reveal that the incorporation of the TiO 2 @SiO 2 /APTES nanoparticles into the PPS matrix imparts excellent anti-UV properties to the PPS matrix, leading to a mechanical performance improvement.
doi_str_mv 10.1039/C6RA28098F
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The photocatalytic activities of U–TiO 2 , TiO 2 @SiO 2 , and TiO 2 @SiO 2 /APTES are evaluated using MB decomposition. Nearly 50% of the MB is degraded after 15 min in the presence of the U–TiO 2 under UV radiation (300 W), and only 17.44% and 4.18% of the MB is degraded in the presence of the TiO 2 @SiO 2 -0.6 and TiO 2 @SiO 2 /APTES-1. However, TiO 2 @SiO 2 /APTES-0.6 and TiO 2 @SiO 2 -0.2 exhibit excellent UV absorbance capacities, and the TiO 2 @SiO 2 /APTES-0.6 achieves 80% of the UV-shielding ability of U–TiO 2 . Poly( p -phenylene sulfide) (PPS) is an easily photodegraded material and TiO 2 /PPS is more seriously photodegraded than PPS, however, the TiO 2 @SiO 2 /APTES nanoparticles can effectively protect the PPS from UV degradation, owing to their lower photocatalytic activities, higher UV-shielding abilities and easy dispersion in the PPS matrix. 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title Higher UV-shielding ability and lower photocatalytic activity of TiO 2 @SiO 2 /APTES and its excellent performance in enhancing the photostability of poly(p-phenylene sulfide)
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