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Photocatalytic Degradation of Plastic Waste: A Mini Review
Summary
This mini review examines photocatalytic degradation as a method for breaking down plastic waste using light-activated materials that accelerate chemical reactions. Researchers found that various photocatalysts can significantly speed up plastic degradation compared to natural sunlight alone, converting plastics into smaller molecules or useful chemical products. The study highlights photocatalysis as a promising technology for addressing the growing plastic waste crisis, though challenges remain in scaling the approach.
Plastic waste becomes an immediate threat to our society with ever-increasing negative impacts on our environment and health by entering our food chain. Sunlight is known to be the natural energy source that degrades plastic waste at a very slow rate. Mimicking the role of sunlight, the photocatalytic degradation process could significantly accelerate the degradation rate thanks to the photocatalyst that drastically facilitates the photochemical reactions involved in the degradation process. This mini review begins with an introduction to the chemical compositions of the common plastic waste. The mechanisms of photodegradation of polymers in general were then revisited. Afterwards, a few photocatalysts were introduced with an emphasis on titanium dioxide (TiO2), which is the most frequently used photocatalyst. The roles of TiO2 photocatalyst in the photodegradation process were then elaborated, followed by the recent advances of photocatalytic degradation of various plastic waste. Lastly, our perspectives on the future research directions of photocatalytic plastic degradation are present. Herein, the importance of catalytic photodegradation is emphasized to inspire research on developing new photocatalysts and new processes for decomposition of plastic waste, and then to increase its recycling rate particularly in the current pandemic with the ever-increasing generation of plastic waste.
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