Eco-friendly Impact of Nanotechnology in Synthetic Dyes: Synthesis and Application

The growing concern for environmental sustainability has led to increased research and development efforts aimed at minimising the ecological impact of various industries. One such area of focus is the textile industry, which heavily relies on synthetic dyes for colouring purposes. Traditional synthetic dyes often contain harmful chemicals and pollutants that pose significant risks to ecosystems and human health. In recent years, the field of nanotechnology has emerged as a promising avenue for developing eco-friendly synthetic dyes. It presents a comprehensive overview of the eco-friendly impact of nanotechnology in the synthesis and application of synthetic dyes. Nanotechnology offers unique opportunities to enhance the sustainability profile of synthetic dyes by reducing resource consumption, minimising waste generation, and improving dyeing efficiency. The synthesis of nanosized dye particles allows for precise control over colour properties and improved dye fixation, resulting in reduced dye consumption and wastewater generation. Furthermore, the incorporation of nanoparticles into textile fibres can enhance their colour fastness and durability, reducing the need for frequent re-dyeing and extending the lifespan of textile products. Nanotechnology-enabled dyeing processes also offer the potential for energy savings and reduced water usage, further contributing to environmental sustainability. It highlights the potential of nanotechnology to revolutionise the synthetic dye industry by providing eco-friendly alternatives to conventional dyeing processes. Through careful design and application, nano-enabled synthetic dyes have the potential to significantly reduce the ecological footprint of the textile industry while maintaining vibrant and long-lasting colours. However, further research is needed to comprehensively evaluate the potential risks and benefits associated with the use of nanotechnology in synthetic dye production and to ensure the safe implementation of these innovative approaches. © The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2024 S.