International Journal of Applied Nanotechnology (IJAN)

The field of robotics is expanding quickly and has the potential to change the world in many ways. Robots are now an essential part of our lives, doing everything from boosting production and efficiency to breaking new ground and entertaining us. To fully realize the potential of this fascinating field, robotics development must be carried out responsibly and ethically as we continue to make technological advancements. Nano-robotics is a fast-developing field that has the potential to revolutionize a number of industries and greatly enhance our quality of life. But it's imperative to make sure that these tiny machines are developed and used in an ethical and responsible manner. The future of nano-robotics appears bright, and with the right laws and policies in place, we should anticipate seeing even more ground-breaking uses in the years to come. The use of nanomaterials, sensors, motors, self-assembly, microfluidics, communication, and artificial intelligence is central to the concept of nano-robotics. Together, these ideas make it possible to create, assemble, and operate nanobots, which are machines that can carry out a variety of tasks at the nanoscale. Nano-robotics has countless potential applications, and with ongoing advancements in the field, this is an exciting time for this emerging technology. The field's applications are still quite broad, encompassing areas such as healthcare, environmental monitoring, infrastructure maintenance, and space exploration, among others. As we continue to push the boundaries of what is possible with nanorobotics, we must also consider the ethical implications of our work and ensure that we are using this technology to benefit all of humanity.

. Samreen, T.; Rasool, S.; Kanwal, S.; Riaz, S.; Sidra-Tul-Muntaha; Nazir, M.Z. Role of Nanotechnology in Precision Agriculture. Environ. Sci. Proc. 2022, 23, 17. https://doi.org/10.3390/environsciproc2022023017

. Halli U M, “Nanotechnology in IoT Security”, Journal of Nanoscience, Nanoengineering & Applications, 2022, Vol 12, issue 3, pp. 11 – 16,

. Halli U.M., “Nanotechnology in E-Vehicle Batteries”, International Journal of Nanomaterials and Nanostructures. 2022; Vol 8, Issue 2, pp. 22–27.

. Sayyad Liyakat,(2023). Accepting Internet of Nano-Things: Synopsis, Developments, and Challenges. Journal of Nanoscience, Nanoengineering & Applications. 2023; 13(2): 17–26p. DOI: https://doi.org/10.37591/jonsnea.v13i2.1464

. Ragaei, M.; Sabry, A.H. Nanotechnology for insect pest control. Int. J. Sci. Environ. Technol. 2014, 3, 528–545.

. Oves, M.; Khan, M.S.; Zaidi, A.; Ahmed, A.S.; Ahmed, F.; Ahmad, E.; Sherwani, A.; Owais, M.; Azam, A. Antibacterial and cytotoxic efficacy of extracellular silver nanoparticles bio fabricated from chromium reducing novel OS4 strain of Stenotrophomonas maltophilia. PLoS ONE 2013, 8, e59140

. K.K S Liyakat (2022). Nanotechnology application in neural growth support system, Nano trends-A Journal of Nano Technology & its Applications, 24(2),

. Khadake, S. B., Dolli, S. P., Rathod, M. K., Waghmare, M. O., & Deshpande, M. A. (2016). An Overview of Intelligent Traffic Control System Using Plc and Use of Current Data of Vehicle Travels. JournalNX, 1-4.

. Wale Anjali D., Rokade Dipali, et al, “Smart Agriculture System using IoT”, International Journal of Innovative Research In Technology, 2019, Vol 5, Issue 10, pp.493 - 497.

. Dudgikar, A. B., Ingalgi, A. A. A., Jamadar, A. G., Swami, O. R., Khadake, S. B., & Moholkar, S. V. Intelligent Battery Swapping System for Electric Vehicles with Charging Stations Locator on IoT and Cloud Platform. Available at: https://ijarsct.co.in/Paper7867.pdf

. K K S Liyakat (2022). Model for agricultural information system to improve crop yield using IoT, Journal of Open Source Development, 9(2), 16-24,

. Kazi Sultanabanu Sayyad Liyakat,(2023). Accepting Internet of Nano-Things: Synopsis, Developments, and Challenges. Journal of Nanoscience, Nanoengineering & Applications. 2023; 13(2): 17–26p. DOI: https://doi.org/10.37591/jonsnea.v13i2.1464

. Mishra Sunil B., et al. (2024). Review of the Literature and Methodological Structure for IoT and PLM Integration in the Manufacturing Sector, Journal of Advancement in Machines, 9(1), 1-5

. Prashant K Magadum (2024). Machine Learning for Predicting Wind Turbine Output Power in Wind Energy Conversion Systems, Grenze International Journal of Engineering and Technology, Jan Issue, Vol 10, Issue 1, pp. 2074-2080. Grenze ID: 01.GIJET.10.1.4_1

. Mishra Sunil B., et al. (2024). AI-Driven IoT (AI IoT) in Thermodynamic Engineering, Journal of Modern Thermodynamics in Mechanical System, 6(1), 1-8.

. Mishra Sunil B., et al. (2024). Review of the Literature and Methodological Structure for IoT and PLM Integration in the Manufacturing Sector, Journal of Advancement in Machines, 9(1), pp. 1-5.