Photocatalytic Nanocomposite Materials Based on Inorganic Polymers (Geopolymers): A Review

Today, the building and construction sector demands environmentally friendly and sustainable protective coatings using inorganic coating materials for safe, non-hazardous, and great performance. Many researchers have been working on sustainable solutions to protect concrete and metal infrastructures against corrosion and surface deterioration with the intention of introducing green alternatives to conventional coatings. This article presents a review of developments of geopolymer pastes doped with different types of photocatalyst precursors including factors affecting geopolymer properties for enhancing coating with photocatalytic performance. Photodegradation using geopolymer photocatalyst has great potential for resolving harmless substances and removing pollutants when energized with ultraviolet (UV) light. Although geopolymer is a potentially new material with great properties, there has been less research focusing on the development of this coating. This study demonstrated that geopolymer binders are ideal precursor support materials for the synthesis of photocatalytic materials, with a significant potential for optimizing their distinctive properties.

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TiO2 Modified Geopolymers for the Photocatalytic Dye Decomposition

Novotná

Knotek

Hanzlíček

et al. 2021

Crystals

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This article studies the photocatalytic activity of three types of industrially produced TiO2 powder (P25, CG100 and CG300) incorporated into a parent geopolymer matrix, and their pure counterparts, based on the decomposition of Rhodamine B dye. Rhodamine B dye is applied as a model substance because it is frequently used in the textile industry and thus may be present in the wastewater. The average particle size, specific surface area and mineralogical composition of TiO2 powders have been determined. The geopolymer matrix works well as a supporting material for the CG100 and P25 pure types of TiO2 powder as these input materials have better properties such as a higher average particle size, lower specific surface area, mineralogicalcomposition, etc., than the CG300 TiO2 powder. These properties (or their combination) affect the photocatalytic activity of the resulting materials, which may thus become advanced composites with an additional purifying ability, e.g., materials that can be used for wastewater treatment or air purification.

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Photocatalytic Nanocomposite Materials Based on Inorganic Polymers (Geopolymers): A Review

Cited by 6 publications

References 39 publications

Editorial: Special Issue on Photocatalytic Nanocomposite Materials (PNMs)

Editorial: Special Issue on Photocatalytic Nanocomposite Materials (PNMs)

The Suitability of Photocatalyst Precursor Materials in Geopolymer Coating Applications: A Review

TiO2 Modified Geopolymers for the Photocatalytic Dye Decomposition

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