Degradation and Photocatalytic Properties of Nanocomposites
A special issue of Nanomaterials (ISSN 2079-4991). This special issue belongs to the section "Energy and Catalysis".
Deadline for manuscript submissions: closed (20 March 2024) | Viewed by 20583
Special Issue Editor
Special Issue Information
Dear Colleagues,
In recent years, a large interest is devoted to optimize the photocatalytic characteristic of nanostructural composite in order to employ maximum energy from the solar spectrum, especially for photocatalysis and degradation of organic pollutants and industrial effluents. The nanocomposites consist of wide band gap energy semiconductors such as TiO2 coupled with narrow band gap semiconductors, co-doping with metals or the presence of the photoresponsive nanostructured carbon-based architecture have an auspicious role in photocatalytic application and degradation due to their multistructural characteristics. Moreover, the heterojunctions or presence of photoactive components in nanocomposites play an effective role to broaden the photoresponsive range of photocatalysts in order to promote charge separation, photoconversion efficiency and charge transference. Additionally, the nanocomposites can own a large interfacial area due to face-to-face contact of heterostructures leading to an effective separation, and low recombination rate of photogenerated electron-hole pairs. In addition, the nanostructural architecture can dictate and reduce energy for the excitation of electrons from the occupied valence band (VB) to the vacant conduction band (CB) resulting in photogenerated charge carriers and via redox reactions with water, oxygen leading to highly Reactive Oxygen Species (‘OH, O2−,) responsible for the fast degradation of organic dyes, pollutants and/or industrial effluent.
This Special Issue focuses to present the wide field and the utilization of nanostructural composite for photocatalytic transformation and degradation including the photocatalytic transformation of industrially relevant compounds, organic pollutants and industrial effluents photodegradation, photocatalytic CO2 conversion and related technologies for solar energy transformation. We encourage authors to contribute original research articles and review articles covering the recent progress on nanostructured composites with impeccable degradation and/or photocatalytic properties.
Dr. Peter Kasak
Guest Editor
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Keywords
- photodegradation
- pollutant photodegradation
- nanocomposite
- photoactive carbon-based structure
- heterojunction
- interface engineering
- photocatalysis
- photocatalytic transformation
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