Improvements to the photocatalytic efficiency of polyaniline modified TiO2 nanoparticles

Nanocomposites were successfully synthesized by the oxidative polymerization of p‐anisidine and/or aniline monomers (at initial “p‐anisidine:aniline” mole ratios of “100 : 0,” 50 : 50,” and “0 : 100”) with titanium(IV) oxide nanoparticles, in the presence of hydrochloric acid as a dopant with ammonium persulfate as an oxidant. The morphological, structural, conductivity, and electrochemical properties of the synthesized nanocomposites were studied using Transmission Electron Microscopy, X‐ray diffraction, Fourier transform infrared spectroscopy, and UV–vis spectroscopies. The presence of polymer on TiO2 nanoparticles in samples nanocomposites was confirmed by the Transmission Electron Microscopy coupled with Energy Dispersive X‐ray Spectroscopy. The thermal stability of samples nanocomposites were evaluated using the Thermogravimetric Analysis. Electrical conductivity of nanocomposites obtained is in the range of 0.08 − 0.91 S cm−1. The electrochemical behavior of the polymers extracted from the nanocomposites has been analyzed by cyclic voltammetry. Good electrochemical response has been observed for polymer films; the observed redox processes indicate that the polymerization on TiO2 nanoparticles produces electroactive polymers. These composite microspheres can potentially be used in commercial applications as fillers for antistatic and anticorrosion coatings. POLYM. COMPOS., 38:E254–E260, 2017. © 2015 Society of Plastics Engineers

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“…These observations were also observed by other authors with TiO 2 /polyaniline composites [22][23][24].…”

Section: Resultssupporting

confidence: 79%

“…It can be seen that the XRD pattern of nanocomposites is more or less similar to that of TiO 2 nanopartices. In all samples, it can be observed all the diffraction peaks of TiO 2 that corresponds to anatase crystalline phase [22]. Hence, the polymers do not change the structure of TiO 2 .…”

Section: Resultsmentioning

confidence: 70%

A novel conducting nanocomposite obtained by p‐anisidine and aniline with titanium(IV) oxide nanoparticles: Synthesis, Characterization, and Electrochemical properties

et al. 2015

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“…[37][38][39][40][41][42] O desempenho da polianilina em doar elétrons, receber e transportar buracos sob incidência de fotóns com energia na região visível do espectro sugere um grande potencial para sua aplicação em fotocatálise heterogênea. 13,15,43 A polianilina como fotossensibilizador em fotocatálise heterogênea As propriedades ópticas da polianilina são responsáveis pelo seu potencial em atuar como fotossensibilizador de óxidos metálicos semicondutores como o TiO 2, ZnO, entre outros, que são normalmente inativos à luz visível. As transições eletrônicas da PANI dopada de coloração verde (sal esmeraldina) são bem conhecidas e marcadas pela presença de estados polarônicos no gap.…”

Section: Polianilinaunclassified

“…7,[11][12][13][14][15] Vários trabalhos ressaltam a ocorrência de um efeito sinér-gico entre polianilina e catalisadores inorgânicos, o que resulta em sistemas fotocatalíticos promissores para a remoção de contaminantes. 6,7,12,13,[15][16][17][18][19][20][21][22] Polianilina A partir da década de 70, com a descoberta das formas dopadas de polímeros capazes de conduzir corrente elétrica, uma vasta área de pesquisa e de aplicações destes materiais foi estabelecida. A polianilina (PANI), dentre os polímeros condutores (PC), tem recebido destaque devido a sua boa estabilidade, fácil obtenção e amplo leque de aplicações.…”

unclassified

A Polianilina No Cenário Ambiental: Uma Aborgagem Sobre Fotocatálise Heterogênea

Vargas¹,

Dalmolin²,

Pezzin³

et al. 2017

Quim. Nova

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“…Therefore, research on developing a "green" method to degrade pollutants is attracting widespread attention. Many semiconductors, including oxides (TiO 2 [5,6] and ZnO [7,8]), sulfides (CdS [9], ZnS [10], and MoS 2 [11]), halides (AgCl [12] and AgBr [13]), and other classes of semiconductors (g-C 3 N 4 [14] and Ag 3 PO 4 [15]), have been used in applications such as photocatalysis for the degradation of organic pollutants [16]. However, these semiconductors suffer from three major problems: low degradation efficiency, lack of stability, and high toxicity.…”

Section: Introductionmentioning

confidence: 99%

BiOCl/ultrathin polyaniline core/shell nanosheets with a sensitization mechanism for efficient visible-light-driven photocatalysis

et al. 2018

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Photocatalytic technology holds great promise in renewable energy and environmental protection. Herein, we report the synthesis of a class of polyaniline-sensitized BiOCl core/shell nanosheets with visible-light photocatalytic activity by a one-step oxidative polymerization method and show how the hybrid nanosheet boosts the photocatalytic activity and stability for degradation of Rhodamine B (RhB). In this unique structure, the ultrathin polyaniline (PANI) as a shell with the thickness of about 1-2 nm, can widen the response of the catalyst to visible light to boost photocatalysis and the BiOCl core can promote the separation of photogenerated carriers from the PANI. We demonstrate that the optimized BiOCl/ PANI core/shell photocatalyst shows nearly three times higher photocatalytic activity for the degradation of RhB than pure BiOCl and also shows high stability. This work provides a new strategy for the design of a highly efficient hybrid photocatalyst driven by visible light.

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Improvements to the photocatalytic efficiency of polyaniline modified TiO2 nanoparticles

Cited by 115 publications

References 39 publications

A novel conducting nanocomposite obtained by p‐anisidine and aniline with titanium(IV) oxide nanoparticles: Synthesis, Characterization, and Electrochemical properties

A novel conducting nanocomposite obtained by p‐anisidine and aniline with titanium(IV) oxide nanoparticles: Synthesis, Characterization, and Electrochemical properties

A Polianilina No Cenário Ambiental: Uma Aborgagem Sobre Fotocatálise Heterogênea

BiOCl/ultrathin polyaniline core/shell nanosheets with a sensitization mechanism for efficient visible-light-driven photocatalysis

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