High-Tech Sustainable Beauty: Exploring Nanotechnology for the Development of Cosmetics Using Plant and Animal By-Products

IF 3.4 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Gabriela Braga Barros Nhani, L. D. di Filippo, Geanne Aparecida de Paula, Vitoria Ribeiro Mantovanelli, Patricia Pereira da Fonseca, Felipe Mota Tashiro, Diana Coêlho Monteiro, B. Fonseca-Santos, J. Duarte, M. Chorilli
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Abstract

In a world increasingly focused on eco-conscious living, the cosmetic industry is actively adopting nanotechnology to transform plant and animal by-products into high-value beauty products. This comprehensive review explores the innovative and sustainable approaches for extracting and utilizing bioactive compounds from these by-products. The application of nanocarrier systems is highlighted for their role in enhancing the delivery efficacy and safety of these ingredients in skincare and beauty products. Consumer demand and environmental concerns drive the shift towards natural and sustainable cosmetic products. Traditional cosmetic production often involves significant ecological impacts, prompting the industry to seek greener alternatives. This review addresses the critical need for sustainable beauty solutions that align with global sustainability goals, particularly those outlined in the 2030 Agenda for Sustainable Development. The review provides valuable insights into current trends and future directions in sustainable cosmetics by focusing on nanotechnology and by-products. The review uniquely integrates nanotechnology with sustainability practices in the cosmetic industry. It details the benefits of using nanocarriers to improve the stability, bioavailability, and efficacy of bioactive compounds derived from natural waste. This intersection of high-tech methodologies and sustainability offers a novel perspective on cosmetic innovation. Future research should focus on overcoming the technical, regulatory, and economic challenges of scaling up nanotechnology applications. Investigations should include the development of transparent supply chains, standardization methods for characterizing nanoparticles, and comprehensive lifecycle assessments to ensure environmental safety. Additionally, fostering collaboration between scientific research, industry practices, and consumer education is vital for advancing sustainable practices. This review contributes to the broader discourse on sustainable beauty by presenting a clear pathway for integrating these innovative approaches. It ensures that future cosmetic products meet consumer expectations for efficacy and safety and promote environmental stewardship and a circular economy, ultimately benefiting both the skin and the planet.
高科技可持续美容:探索利用动植物副产品开发化妆品的纳米技术
在越来越注重生态意识生活的今天,化妆品行业正积极采用纳米技术将动植物副产品转化为高价值的美容产品。本综述探讨了从这些副产品中提取和利用生物活性化合物的创新和可持续方法。重点介绍了纳米载体系统在提高这些成分在护肤和美容产品中的传递效率和安全性方面的应用。消费者的需求和对环境的关注推动了向天然和可持续化妆品的转变。传统的化妆品生产通常会对生态环境造成严重影响,这促使化妆品行业寻求更环保的替代品。本综述探讨了对符合全球可持续发展目标,尤其是《2030 年可持续发展议程》中概述的目标的可持续美容解决方案的迫切需要。本综述以纳米技术和副产品为重点,为可持续化妆品的当前趋势和未来方向提供了宝贵的见解。该综述独特地将纳米技术与化妆品行业的可持续发展实践相结合。它详细介绍了使用纳米载体提高从天然废物中提取的生物活性化合物的稳定性、生物利用度和功效的好处。这种高科技方法与可持续发展的交叉为化妆品创新提供了一个新的视角。未来的研究应侧重于克服纳米技术应用规模扩大所带来的技术、监管和经济挑战。研究应包括开发透明的供应链、表征纳米颗粒的标准化方法以及全面的生命周期评估,以确保环境安全。此外,促进科学研究、行业实践和消费者教育之间的合作对于推进可持续实践至关重要。本综述提出了整合这些创新方法的明确途径,为更广泛地讨论可持续美容问题做出了贡献。它能确保未来的化妆品满足消费者对功效和安全性的期望,促进环境管理和循环经济,最终使皮肤和地球受益。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Cosmetics
Cosmetics Medicine-Surgery
CiteScore
5.20
自引率
12.10%
发文量
108
审稿时长
8 weeks
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