کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
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1488175 | 1510724 | 2014 | 8 صفحه PDF | دانلود رایگان |

• Organic–inorganic hybrid materials have the potential to acquire new advantageous properties from the two components.
• Nanostructures of conducting polyaniline have relation with photocatalytic efficiencies of its composite with TiO2.
• Nanorods structures of polyaniline facilitated visible light absorption and the catalytic functionality of TiO2.
• Hybrid catalysts exhibited both greater photocatalytic functionality and efficiency during subsequent runs.
Present work is an investigation of the inter-relationship between nanostructures of conducting polyaniline (PANI) and photocatalytic efficiencies of its composites with anatase TiO2. Two composites with/without ultra-sonication (PANI-TiO2-S and PANI-TiO2) of the polymerization mixture and pristine PANI were prepared by in situ chemical oxidation method. IR and XRD characterizations revealed the core (TiO2) – shell (PANI) arrangement of the hybrid composites. PANI-TiO2-S had nanorods structures grown with TiO2 template and some irregularly shaped secondary grains; but PANI-TiO2 had only spherical submicron size particles. In visible light photodecomposition of methylene blue, PANI, TiO2, PANI-TiO2-S and PANI-TiO2 had the efficiencies of 58%, 71%, 77% and 65% respectively. The greatest efficiency of PANI-TiO2-S originated from the nanostructures of PANI and the combined effect of PANI and TiO2 components in hybrid. Besides this, the characteristics of composites remained invariable during photocatalytic run, which facilitated retain of efficiency during second/third run.
The hybrid composite PANI-TiO2 with nanorods morphology exhibits higher efficiency towards visible light photodegradation of methylene blue. Chemical and structural characteristics of fresh sample remained invariable during photocatalytic run so that they could retain the efficiency during second/third run also.Figure optionsDownload as PowerPoint slide
Journal: Materials Research Bulletin - Volume 51, March 2014, Pages 128–135