International Journal of Engineering Technology and Management Sciences

2023, Volume 7 Issue 3

Nano Antenna for Energy Harvesting

AUTHOR(S)

Akash Hegde, Sarayu Varada, Srividya K.R., Subbodh Satish, Yashaswini N., Dr. Sindhu Sree M., Dr. Pavithra G., Dr. T.C.Manjunath

DOI: https://doi.org/10.46647/ijetms.2023.v07i03.58

ABSTRACT
In this paper, the design & development of a Nano Antenna for Energy Harvesting is presented in a nutshell. The ever-increasing demand for energy in today's world has compelled us to seek alternative energy sources. While photovoltaic devices are being researched and developed to improve their efficiency, they can only extract energy from the visible region of the electromagnetic spectrum. Consequently, a new device called a Nano antenna has been developed that can convert thermal energy from the infrared region of the spectrum into electricity. In the near future, it is expected to contribute significantly to various fields, including space communication, broadband wireless links, wireless optical communication, mobile communication (5G), radar detection, and higher-order frequency applications. Nano antennas can be fabricated using different techniques such as electron beam lithography, focused ion beam, and nanoimprinting lithography. This paper focuses on the nanoimprinting lithography technique, as it is a cost-effective and high-throughput method. Additionally, the issue of material selection for nano antennas is a significant challenge, and the paper will discuss strategies for overcoming it. The work done & presented in this paper is the result of the mini-project work that has been done by the first sem engineering students of the college and as such there is little novelty in it and the references are being taken from various sources from the internet, the paper is being written by the students to test their writing skills in the starting of their engineering career and also to test the presentation skills during their mini-project presentation. The work done & presented in this paper is the report of the assignment / alternate assessment tool as a part and parcel of the academic assignment of the first year subject on nanotechnology & IoT.

Page No: 444 - 448

References:

      • Brown WC (1996) The history of wireless power transmission. Solar Energy 56:3–21
      • Brown WC (1969) Experiments involving a microwave beam to power and position a helicopter. IEEE Trans Aerosp Electron Syst AES-5:692–702
      • Raghunathan V, Kansal A, Hsu J, Friedman J, Srivastava M (2005) Design considerations for solar energy harvesting wireless embedded systems. In: Proceedings of the 4th international symposium on Information processing in sensor networks, p 64
      • Brunelli D, Benini L, Moser C, Thiele L (2008) An efficient solar energy harvester for wireless sensor nodes. In: 2008
      • T. Pravin, C. Somu, R. Rajavel, M. Subramanian, P. Prince Reynold, Integrated Taguchi cum grey relational experimental analysis technique (GREAT) for optimization and material characterization of FSP surface composites on AA6061 aluminium alloys, Materials Today: Proceedings, Volume 33, Part 8, 2020, Pages 5156-5161, ISSN 2214-7853, https://doi.org/10.1016/j.matpr.2020.02.863.
      • Pravin T, M. Subramanian, R. Ranjith, Clarifying the phenomenon of Ultrasonic Assisted Electric discharge machining, “Journal of the Indian Chemical Society”, Volume 99, Issue 10, 2022, 100705, ISSN 0019-4522, Doi: 10.1016/j.jics.2022.100705
      • Lee TH (2004) The design of cmos radio-frequency integrated circuits. Commun Eng 2:47
      • Song C, Huang Y, Zhou J, Zhang J, Yuan S, Carter P (2015) A high-efficiency broadband rectenna for ambient wireless design, automation and test in europe, pp 104–109
      • Abdin Z, Alim MA, Saidur R, Islam MR, Rashmi W, Mekhilef S et al (2013) Solar energy harvesting with the application of nanotechnology. Renew Sustain Energy Rev 26:837–852 energy harvesting. IEEE Trans Antennas Propag 63:3486– 3495
      • Ackermann T, Söder L (2000) Wind energy technology and current status: a review. Renew Sustain Energy Rev 4:315– 374
      • P.Divyakumar, “Smart Traffic Clearance System For Emergency Vehicles”, Journal of Xidian University, ISSN No:1001-2400 , 15,4, 2021,210-215.
      • P.Divyakumar, “Automatic Speed Control and Accident Detection System”.WutanHuatanJisuanJishu, ISSN:1001-1749,16,6, 2021,159-165.
      • Rajashekhar, V., Pravin, T., Thiruppathi, K.: A review on droplet deposition manufacturing a rapid prototyping technique. Int. J. Manuf. Technol. Manage. 33(5), 362–383 (2019) https://doi.org/10.1504/IJMTM.2019.103277
      • Rajashekhar V S, Pravin T, Thirupathi K, RaghuramanS.Modeling and Simulation of Gravity based Zig-zag Material Handling System for Transferring Materials in Multi Floor Industries. Indian Journal of Science and Technology.2015 Sep, 8(22), pp.1-6.
      • GM Joselin Herbert, S. Iniyan, E. Sreevalsan, and S. Rajapandian, “A review of wind energy technologies,” Renewable and Sustainable Energysubstrate compact high gain rectennas for low RF power harvesting. In: 2016 10th European conference on antennas and propagation (EuCAP), pp 1–4
      • Ayush Kumar Bar; Akankshya Rout; Ankush Kumar Bar. "Cryptojacking Detection Using Genetic Search Algorithm". International Research Journal on Advanced Science Hub, 5, 04, 2023, 119-129. doi: 10.47392/irjash.2023.025
      • Nithya Devi S; Aakash R; Arun Kumar K; Bala Subramanian R; Manoj Kumar P. "Advanced Non-Invasive Lung Monitoring System Using IoT". International Research Journal on Advanced Science Hub, 5, 04, 2023, 130-136. doi: 10.47392/irjash.2023.026
      • Jawahar S; Harish G; Harsha Varthan S; Navialagan P; Preethi D. "Performance Analysis of Notch Filter in ECG Signal Noise Reduction". International Research Journal on Advanced Science Hub, 5, 04, 2023, 137-141. doi: 10.47392/irjash.2023.027
      • Shaheed Khan; Freeda Maria Swarna M; Panch Ramalingam; Amarnatha Reddy Pedaballi. "Work from home (WFH) in the IT/ITeS corporate, a dilemma for the Human Resources and the Associates". International Research Journal on Advanced Science Hub, 5, 04, 2023, 142-154. doi: 10.47392/irjash.2023.28
      • Steve Ales; Rajesh Kumar Behera; Kamalakanta Muduli. "An Experimental Inquire on Dry Sliding Wear Behaviour of Al-Si-Mg-Cu-SiC Composites Fabricated by Metallurgical Powder Technique". International Research Journal on Advanced Science Hub, 5, 04, 2023, 155-159. doi: 10.47392/irjash.2023.030
      • Lu P, Yang XS, Li JL, Wang BZ (2016) Polarization reconfigurable broadband rectenna with tunable matching network for microwave power transmission. IEEE Trans Antennas Propag 64:1136–114 Reviews, vol. 11, pp. 1117-1145, 8//2007
      • Şahin AD (2004) Progress and recent trends in wind energy. Prog Energy Combust Sci 30:501–543
      • Sun H (2016) An enhanced rectenna using differentially-fed rectifier for wireless power transmission. IEEE Antennas WirelPropag Lett 15:32–3
      • Nayanthara Prathap, Akash Suresh, Pavithra G., T.C. Manjunath, “Prediction of COVID-19 by analysis of Breathing Patterns using the Concepts of Machine Learning and Deep Learning Techniques”, 2022 2nd International Conference on Intelligent Technologies (CONIT), Hubli, India, pp. 1-7, 24-26 June 2022,
      • V.K. Suhasini, Prerana B. Patil, K.N. Vijaykumar, S.C. Manjunatha, T. Sudha, P. Kumar, GopalaiahRamachandraiah, G. Pavithra, T.C. Manjunath, “Detection of Skin Cancer using Artificial Intelligence & Machine Learning Concepts,” 2022 IEEE 4th International Conference on Cybernetics, Cognition and Machine Learning Applications (ICCCMLA), Goa, India, pp. 343-347, 08-09 October 2022.
      • K.V. Sandeep and T.C. Manjunath, “A Novel Mechanism for Design and Implementation of Confidentiality in Data for the Internet of Things with DES Technique”, 2022 Sixth IEEE International Conference on I-SMAC (IoT in Social, Mobile, Analytics and Cloud) (I-SMAC), Dharan, Nepal, pp. 106-110, 10-12 November 2022.


How to Cite This Article:
Akash Hegde, Sarayu Varada, Srividya K.R., Subbodh Satish, Yashaswini N., Dr. Sindhu Sree M., Dr. Pavithra G., Dr. T.C.Manjunath .Nano Antenna for Energy Harvesting . ijetms;7(3):444-448. DOI: 10.46647/ijetms.2023.v07i03.58