Nano Granular Metallic Thin Films: Unravelling Non-Linear Electrical Conduction and Resistive Switching for Neuromorphic Applications

Authors P.B. Khatkale1, A.A. Khatri2, P.M. Yawalkar3, V. Verma4 , V.M. Tidake5 , P.M. Patare6 , S. Kulkarni7
Affiliations

1Sanjivani University, Kopargaon, MH, India

2Department of Computer Engineering, Jaihind College of Engineering, Kuran, SPPU, Pune, MH, India

3Department of Computer Engineering, MET's Institute of Engineering, Nashik, India

4Department of Computer Science and Engineering, Bhilai Institute of Technology, Raipur, Chhattisgarh, India

5Department of MBA, Sanjivani College of Engineering, Kopargaon, SPPU, Pune, India

6Department of Mechanical Engineering, Sanjivani College of Engineering Kopargaon, SPPU, Pune, India

7Research & Technical Advisor, Filantrofia Sarvada Cleantech Pvt. Ltd., Pune, India

Е-mail praveenkhatkale@gmail.com
Issue Volume 16, Year 2024, Number 3
Dates Received 14 April 2024; revised manuscript received 14 June 2024; published online 28 June 2024
Citation P.B. Khatkale, A.A. Khatri, et al., J. Nano- Electron. Phys. 16 No 3, 03015 (2024)
DOI https://doi.org/10.21272/jnep.16(3).03015
PACS Number(s) 73.22. – f, 81.05.Rm
Keywords Metallic Film, Resistive Switching (RS), Electro chemicals, Neuromorphic.
Annotation

The arbitrarily formed golden cluster systems were created in the gas state which has strong Resistive Switching (RS) behavior around ambient temperatures and makes these attractive candidates for the creation of electronics geared toward neuron categorization along with information analysis. The cluster-assembled nanotechnology coatings that are fully linked have an irregular shape that includes neuromorphic crystallographic flaws, interactions and frontiers of grains, highlighting the complex interaction among electromagnetic in mechanical elements. In this analysis, we conduct a thorough investigation of the electroforming procedure that is utilized in the creation of film that was the cluster assembled. The present research sheds light regarding the electroforming procedure's substantial influence on the complex relations among nanopores and the mesoscale layer formations and underlying neurological properties of resistance switches activities that ensure. The findings provide insight into a methodical oversight of electroforming operation and reveal its function in building distinct patterns at various sizes in films of cluster assembled. The discovery not only improves our understanding of the intricate relationships among architectural and electrical parts but it provides opportunities for designing neurological structures that are randomly constructed and customized over multiple information-handling applications.

List of References