This is an unedited manuscript accepted for publication and provided as an Article in Press for early access at the author’s request. The article will undergo copyediting, typesetting, and galley proof review before final publication. Please be aware that errors may be identified during production that could affect the content. All legal disclaimers of the journal apply.
Gizachew Diga,
- Associate Professor, Department of Physics, Jimma University,Ethiopia, Ethopia, Ethiopia
Abstract document.addEventListener(‘DOMContentLoaded’,function(){frmFrontForm.scrollToID(‘frm_container_abs_130884’);});Edit Abstract & Keyword
Nanotechnology is the focus of much scientific community due to its multifunction. In order to realize such functionality, the size, dimensions, and shape dependent physio-chemical properties are first analyzed. Then, measurable nanostructures including nanomaterials, nanocomposite, and nanoparticles which impact the functional properties of materials and devise are assessed. Herein, the role of such nanostructures in enhancing the efficiency, performance, and quality of materials and technology is envisioned. As a vehicle, contributions of Nanotechnology in smart health care systems, food manufacturing, electronics, sustainable energy, and green economy are explored. Nanotechnology is then aimed at incorporating nanomaterials for efficient biomedicine, improved biotechnology, enhancing Decarbonization technology, and ensuring safety environment. Moreover, the notion of nanotechnology in changing a plagiarism shift in information process, smart health care system, and nanomedicine by incorporating internet of Nanothings, nanosensor, innovative technology, and recycling technology. Nanotechnology and sustainability motion encompasses fundamental principles and strategies directed toward carbon reduction, ensuring green ecosystem, and improving quality. Hence, the potential of nanotechnology in ensuring green nanotechnology, mitigating global warming, waste water treatment, enabling agricultural transformation from, and maintaining sustainable development is seen. In addition, the role of nanotechnology at creating space and career opportunity, active areas of research and development is highlighted. In the future, nanotechnology will empower integrations of Green nanotechnology and biotechnology for ensuring reliable energy, food safety, personal medicine, and green ecosystem.
Keywords: Nanotechnology, Nanomaterials, Sustainability, Decarbonization technology
[This article belongs to Nano Trends – A Journal of Nano Technology & Its Applications (nts)]
Gizachew Diga. Nanotechnology and sustainability motion. Nano Trends – A Journal of Nano Technology & Its Applications. 2025; 27(01):-.
Gizachew Diga. Nanotechnology and sustainability motion. Nano Trends – A Journal of Nano Technology & Its Applications. 2025; 27(01):-. Available from: https://journals.stmjournals.com/nts/article=2025/view=0
References
document.addEventListener(‘DOMContentLoaded’,function(){frmFrontForm.scrollToID(‘frm_container_ref_130884’);});Edit
1. Manam VK, Nakkella AK, Gujarathi JR. Frontiers in Nanotechnology. New Delhi: Bharti Publications; 2022. ISBN: 978-93-91681-74-6.
2. Junk A, Riess F. From the idea to vision: There is plenty of room at the bottom. Am J Phys. 2006;74(9):825-30.
3. Hull MS, Quadros ME, Born R, Provo J, Lohani VK, Mahajan RL. Sustainable nanotechnology: a regional perspective. InNanotechnology Environmental Health and Safety 2014 Jan 1 (pp. 395-424). William Andrew Publishing.
4. Taha TB, Barzinjy AA, Hussain FHS, Nurtayeva T. Nanotechnology and computer science: Trends and advances. Memories – Materials, Devices, Circuits and Systems. 2022;2:100011. https://doi.org/10.1016/j.memori.2022.100011.
5. Al-Hchami SH, Alrawi TK. Nano fertilizer, benefits and effects on fruit trees: a. plant archives. 2020;20(1):1085-8.
6. Pandey G. Nanotechnology for achieving green economy through sustainable energy. Rasayan J Chem. 2018;11(3):942-50. https://doi.org/10.31788/RJC.2018.1133031.
7. Tripathi G, et al. Transforming agriculture through nanotechnology: A comprehensive overview. Madras Agric J. 2024;110(4-6):114. https://doi.org/10.29321/MAJ.10.001102.
8. Ghosh R, Ghosh P, Kar S, Mukherjee S, Sinha D. Green Nanotechnology: The Novel and Emerging Strategy for Sustainable Development. InSustainable Nanomaterials for Biosystems Engineering 2023 May 4 (pp. 417-446).
9. Dodamani S, Kurangi B, Teradal N, Kurjogi M. Nanobiotechnology for E-waste management. Nanobiotechnology. 2021;271–81. https://doi.org/10.1016/b978-0-12-822878-4.00017-1
10. Hernández-Saravia, L. P., Carmona, E. R., Villacorta, A., Carevic, F. S., & Marcos, R. Sustainable use of mining and electronic waste for nanomaterial synthesis with technological applications: state of the art and future directions. Green Chemistry Letters and Reviews, 2023,16(1). https://doi.org/10.1080/17518253.2023.2260401
11. Jackson TC, Patani BO, Ekpa DE. Nanotechnology in diagnosis: A review. Adv Nanoparticles. 2017;6:93-102. https://doi.org/10.4236/anp.2017.63008
Nano Trends – A Journal of Nano Technology & Its Applications
| Volume | 27 |
| Issue | 01 |
| Received | 15/10/2024 |
| Accepted | 26/10/2024 |
| Published | 03/01/2025 |