Nanoimprinting of copper nanowires at low temperature

Many methods of lithography to produce copper nanowires have been in manufacturing industries for a long time. In addition, the occurrence of oxidation heavily affects the results of the nanowires turning desirable copper nanowires into unwanted copper oxide nanowires. However, they require high tem...

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Bibliographic Details
Main Author: Yap, Bradley Ming En
Other Authors: Hong Li
Format: Final Year Project
Language:English
Published: Nanyang Technological University 2022
Subjects:
Online Access:https://hdl.handle.net/10356/158248
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Institution: Nanyang Technological University
Language: English
Description
Summary:Many methods of lithography to produce copper nanowires have been in manufacturing industries for a long time. In addition, the occurrence of oxidation heavily affects the results of the nanowires turning desirable copper nanowires into unwanted copper oxide nanowires. However, they require high temperature and energy to conduct. This introduced the various methods of lithography to use low temperature or room temperature lithography to reduce energy used to supply the high temperature. With the introduction of ultrasonic nanoimprinting, the usage of lithography has been less desirable as ultrasonic nanoimprinting overcomes the problems of high energy usage and long cycle time. In this project, it is aimed to produce copper nanowires through the usage of ultrasonic nanoimprint with the addition of using low temperature. The copper nanowire aimed to produce should be of reasonable length and uniformity. Experimenting around with the various parameters and different external ways to aid with the aim of this project will be the guidelines of this report. The findings obtained from this report serve as a gauge and guide to the recommended parameters, methods, and choice to improve the accuracy and results of the low temperature nanoimprinting process.