仿生技术:推进环境可持续性的范例

IF 2.1 4区 生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Indian Journal of Microbiology Pub Date : 2024-09-18 DOI:10.1007/s12088-024-01389-1
Dharmendra Prajapati, Dilfuza Jabborova, Baljeet Singh Saharan, Namita Singh, Anil Patani, Sachidanand Singh, Chinmayi Joshi
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引用次数: 0

摘要

全球环境挑战迫切需要创新的解决方案,这推动了生物学和纳米技术的融合,导致仿生技术成为一股变革力量。这篇综合评论文章探讨了利用仿生技术推进环境可持续性的基本原理、应用、益处和潜在风险。本文首先阐明了仿生技术的基本概念,然后介绍了生物系统与纳米材料之间的协同作用。纳米材料的独特性能与生物过程的适应性相结合,为现实世界中的各种应用奠定了基础。本文以应用为重点,着重介绍了仿生技术如何解决关键的环境问题。它通过案例研究,展示了仿生技术对水净化、空气质量改善、废物管理、可再生能源生产等方面的影响。这些案例研究强调了仿生技术在应对复杂挑战方面的切实利益和功效。然而,在发挥仿生技术潜力的同时,如何应对潜在的生态风险也至关重要。本文强调了生态毒理学考虑因素的重要性,讨论了纳米材料如何与生态系统和生物体相互作用。根据这些考虑因素,以合乎道德和负责任的方式开发仿生技术,可确保其效益最大化,同时将潜在危害降至最低。总之,本综述强调了仿生技术彻底改变环境可持续性的潜力。通过融合纳米材料和生物学的力量,仿生技术为解决紧迫的全球挑战提供了一种整体方法。在赞叹其变革前景的同时,本文也强调了采取平衡方法保护环境健康的必要性。随着社会着眼于更可持续的未来,仿生技术将成为塑造一个具有环境意识的世界的关键范例。
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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Bionanotechnology: A Paradigm for Advancing Environmental Sustainability

The urgent need for innovative solutions to global environmental challenges has driven the convergence of biology and nanotechnology, resulting in the emergence of bionanotechnology as a transformative force. This comprehensive review paper explores the fundamental principles, applications, benefits, and potential risks associated with harnessing bionanotechnology to advance environmental sustainability. Beginning with an elucidation of the fundamental concepts underlying bionanotechnology, this paper establishes the synergy between biological systems and nanomaterials. The unique properties of nanomaterials, coupled with the adaptability of biological processes, form the foundation for a diverse array of real-world applications. Focusing on applications, the paper highlights how bionanotechnology addresses critical environmental issues. It showcases case studies that exemplify its impact on water purification, air quality improvement, waste management, renewable energy production, and more. These case studies underscore the tangible benefits and efficacy of bionanotechnology in tackling complex challenges. However, as the potential of bionanotechnology is harnessed, it is crucial to navigate potential ecological risks. The paper emphasizes the importance of ecotoxicological considerations, discussing how nanomaterials interact with ecosystems and organisms. Ethical and responsible development of bionanotechnology, informed by these considerations, ensures that its benefits are maximized while minimizing potential harm. In conclusion, this review paper underscores bionanotechnology’s potential to revolutionize environmental sustainability. By fusing the power of nanomaterials and biology, bionanotechnology offers a holistic approach to address pressing global challenges. While celebrating its transformative promise, the paper emphasizes the need for a balanced approach that safeguards environmental health. As society looks towards a more sustainable future, bionanotechnology stands as a pivotal paradigm for shaping an environmentally conscious world.

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来源期刊
Indian Journal of Microbiology
Indian Journal of Microbiology BIOTECHNOLOGY & APPLIED MICROBIOLOGY-MICROBIOLOGY
CiteScore
6.00
自引率
10.00%
发文量
51
审稿时长
1 months
期刊介绍: Indian Journal of Microbiology is the official organ of the Association of Microbiologists of India (AMI). It publishes full-length papers, short communication reviews and mini reviews on all aspects of microbiological research, published quarterly (March, June, September and December). Areas of special interest include agricultural, food, environmental, industrial, medical, pharmaceutical, veterinary and molecular microbiology.
期刊最新文献
Bionanotechnology: A Paradigm for Advancing Environmental Sustainability Comparative Analysis of Faecal Bacteria in Captive Asian Elephants of Various Age Groups and Musth A Novel Electrochemical Sensing Platform for Detection of Nitrobenzene Using Gadolinium Oxide Nanorods Modified Gold Electrode Nanocomposite Foils of PS/Cu : Dual Functionality of Optical Enhancement and Antibacterial Activity on Aeromonas hydrophila Nanofabrication of Biochar from Cellulosic Waste for Bio-Sensing Application of Waste Water Treatment: Process, Challenges and Future Update
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