Recent advancements in polythiophene-based adsorbents for heavy metal ion removal: Modification, kinetics and mechanistic insights

[Display omitted] •Inclusive assessment of polythiophene-based adsorbent for heavy metal capture.•Detailed fabrication methodology and modification of polythiophene-based adsorbent is presented.•Analysis of the adsorption mechanism and kinetic studies are summarized.•Future prospects and challenges...

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Bibliographic Details
Published in:Inorganic chemistry communications 2025-02, Vol.172, Article 113657
Main Authors: Rana, Parul, Kaur, Balvinder, Poonia, Komal, Soni, Vatika, Singh, Pardeep, Thakur, Sourbh, Huang, Chao-Wei, Nguyen, Van-Huy, Raizada, Pankaj
Format: Article
Language:English
Subjects:
Heavy metals removal
Kinetic analysis
Mechanistic insights
Modifications
Polythiophene-based adsorbents
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Summary:[Display omitted] •Inclusive assessment of polythiophene-based adsorbent for heavy metal capture.•Detailed fabrication methodology and modification of polythiophene-based adsorbent is presented.•Analysis of the adsorption mechanism and kinetic studies are summarized.•Future prospects and challenges of polythiophene-based adsorbent are proposed. The enhanced environmental contamination of heavy metals has inclined researchers towards enhancing adsorbents. In this regard, Polythiophene (PTh)-based adsorbents have been noticed because of their conjugated polymer structure that makes them have effective delocalized π-system and sulfur-substituted thiophene rings for the adsorption of the heavy metal ions. PTh and its composites have been explored as effective adsorbents to capture heavy metal ions from wastewater because of their high conductivity, chemical stability, and modification ability. These materials can be functionalized with different chemical moieties to improve their adsorption capacities, selectivity, and reusability, making them an ideal candidate for sustainable water treatment technologies. An overview of various adsorbent heavy metal ion removal methods followed by the in-depth analysis of PTh structure, properties, and fabrication techniques. The review highlights the substantial improvement in adsorption capacity and selectivity achieved through modifications enhancing the adsorbent ability to form strong coordination bonds with metal ions. Furthermore, this comprehensive review delves into kinetic and mechanistic insights wherein chemical adsorption is identified as the predominant mechanism for heavy metal capture. The high regeneration ability of modified PTh is also explored, suggesting its potential as a sustainable and efficient solution for large-scale environmental remediation. Despite the effectiveness and recyclability of PTh-based adsorbents, challenges such as economic viability and large-scale application costs of adsorbents are highlighted.
ISSN:1387-7003
DOI:10.1016/j.inoche.2024.113657