Surface analysis of silicon (100) wafer after contact electrification using Kelvin force microscopy

Authors

Jose M. Esmeria Jr., De La Salle University, Manila
Romeric F. Pobre, De La Salle University, Manila

College

College of Science

Department/Unit

Physics

Document Type

Article

Source Title

Manila Journal of Science

Volume

10

First Page

114

Last Page

125

Publication Date

2017

Abstract

Contact electrification was demonstrated on Si (100) wafer, and surface charge images at submicron scale were analysed using Kelvin force microscopy (KFM). Potential map images have shown carpet-like patterns on the (100) plane of Si wafer. Individual potential spikes that appeared on the surface are indicative of the presence of charges arising from contact electrification. It was clearly shown that positive and negative surface potential maps on Si (100) wafer with low resistivity have minimal change in the order of ±2.5 mV after 4800 seconds of noncontact electrification. The mechanism for the slow discharged on the Si (100) wafer can be modelled like a clamped capacitor direct current (D.C.) electric circuit.

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Recommended Citation

Esmeria, J. M., & Pobre, R. F. (2017). Surface analysis of silicon (100) wafer after contact electrification using Kelvin force microscopy. Manila Journal of Science, 10, 114-125. Retrieved from https://animorepository.dlsu.edu.ph/faculty_research/11335

Disciplines

Physics

Keywords

Volta effect; Surfaces (Physics); Interfaces (Physical sciences); Silicon—Electric properties

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