AI Article Synopsis
- The use of polyaniline in creating polymeric composite photocatalysts addresses issues like agglomeration, electron-hole recombination, and limited visible light reactivity in dye degradation.
- Polyaniline is chosen for its strong compatibility with other nanomaterials and excellent photocatalytic performance in composite blends for dye degradation.
- Various characterization techniques are crucial for assessing the impact of polyaniline in composites, leading to improved photocatalytic efficiency through morphological changes and reduced agglomeration.
Article Abstract
The challenges associated with photocatalysts including their agglomeration, electron-hole recombination and limited optoelectronic reactivity to visible light during the photocatalysis of dye-laden effluent make it necessary to fabricate versatile polymeric composite photocatalysts, and in this case the incredibly reactive conducting polyaniline can be employed. The selection of polyaniline among the conducting polymers is based on its proficient functional impacts in composite blends and proficient synergism with other nanomaterials, especially semiconductor catalysts, resulting in a high photocatalytic performance for the degradation of dyes. However, the impacts of PANI in the composite matrix, which result in the desired photocatalytic activities, can only be assessed using multiple characterization techniques, involving both microscopic and spectroscopic assessment. The characterization results play a significant role in the detection of possible points of agglomeration, surface tunability and improved reactivity during the fabrication of composites, which are necessary to improve their performance in the photocatalysis of dyes. Accordingly, studies revealed the functional impacts of polyaniline in composites including morphological transformation, improved surface functionality, reduction in agglomeration and lowered bandgap potential employing different characterization techniques. In this review, we present the most proficient fabrication techniques based on the approach to achieve improved functional and reactive features and efficiencies of 93, 95, 96, 98.6 and 99% for composites in dye photocatalysis.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10201395 | PMC |
| http://dx.doi.org/10.1039/d3ra01243c | DOI Listing |
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