Date of Award
12-2021
Document Type
Dissertation - Campus Access Only
Degree Name
Doctor of Philosophy (PhD)
Degree Discipline
Electrical Engineering
Abstract
Single-walled carbon nanotube (SWCNT) and poly (methyl methacrylate) (PMMA) nanocomposites have various potential applications including radiation detection. This work studied the response of a radiation sensor that was developed from functionalized and unfunctionalized SWCNT/PMMA nanocomposite thin films placed on an interdigitated electrode (IDE). The functionalized thin film devices are made of ferrocene doped SWCNTs, SWCNTs functionalized with carboxylic acid (COOH), and SWCNTs coated/ modified with copper.
This study focused on studying the effect of ionizing radiation (X-rays) in the real-time electrical resistance of thin film nanocomposites. The initial positive results observed in the previous study on X-ray radiation effect on MWCNT/PMMA can be reproduced. The SWCNT/PMMA nanocomposite was prepared using the solution blending method. The prepared thin film of nanomaterial composite in this study was cast on IDE to make the SWCNT/PMMA nanocomposite thin film device. A 160 KV X-ray source was used to irradiate the thin film device at different doses and dose rates. X-rays generated electrons and positive ions (equivalent to holes) in the nanocomposite film caused the reduction of the device’s resistance.
The electrical characterization of the device was performed using a Semiconductor Device Analyzer during the experiments. The results showed that heat treatment of irradiated nanocomposite devices caused rapid recovery. The heat treatment time of thin film device increased about linearly, increasing with the X-rays radiation dose. The thin film device was operated at dc voltage as low as 0.05 V and could reliably observe the radiation-induced change in electrical resistance. This study suggests that researchers could use SWCNT/PMMA thin film devices to detect X-rays radiation, with five times higher sensitivity than similar devices made with MWCNT/PMMA nanocomposite thin film in another study. The response of carboxylic acid functionalized and copper coated SWCNT/PMMA nanocomposite thin film devices to X-rays reduced compared to unfunctionalized SWCNT/PMMA nanocomposite with almost a factor or two for all dose rate conditions. The sensitivity of ferrocene doped SWCNT/PMMA was the highest of all other functionalized and unfunctionalized SWCNT/PMMA thin film devices at lower dose rates 2.13 krad/min and 1.08 krad/min. In contrast, a previous study showed the improved response of the functionalized MWCNT/PMMA nanocomposite devices to X-ray ionizing radiation compared to unfunctionalized MWCNT/PMMA nanocomposite devices for all dose rates. In addition, electrical characterization of thin SWCNT/PMMA film devices was performed using an Arduino Nano microcontroller board.
Committee Chair/Advisor
Richard T. Wilkins
Committee Member
Irvin W. Osborne-Lee
Committee Member
John Fuller
Committee Member
Merlyn Pulikkathara
Committee Member
Justin Foreman
Publisher
Penrose Cofie
Rights
© 2021 Prairie View A & M University
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
Date of Digitization
11/20/2024
Contributing Institution
John B Coleman Library
City of Publication
Prairie View
MIME Type
Application/PDF
Recommended Citation
Suman, G. K. (2021). X-Ray Radiation Effects On Unfunctionalized And Functionalized Swcnt/Pmma Thin Film Nanocomposites For Radiation Sensor Applications. Retrieved from https://digitalcommons.pvamu.edu/pvamu-dissertations/84