Abstract
The ability to sense gas such as methane can provide an early warning system to protect human lives. High demand for the ability to sense the world around us has provided an extensive area of research for sensor technology. In particular, current sensor technology, specifically for methane, has provided sensors that require a heated environment to function. The majority of current methane sensors function at temperatures between 150°C and 450°C [1-3]. This thesis will explore an approach to produce a room temperature methane sensor.
Notes
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Thesis Completion
2015
Semester
Spring
Advisor
Malocha, Donald C.
Degree
Bachelor of Science in Electrical Engineering (B.S.E.E.)
College
College of Engineering and Computer Science
Department
Electrical Engineering and Computer Science
Degree Program
Electrical Engineering
Subjects
Dissertations, Academic -- Engineering and Computer Science; Engineering and Computer Science -- Dissertations, Academic
Format
Identifier
CFH0004832
Language
English
Access Status
Open Access
Length of Campus-only Access
None
Document Type
Honors in the Major Thesis
Recommended Citation
Serritella, Joseph, "Nanocluster Thin-Films for Sensor Applications" (2015). HIM 1990-2015. 1744.
https://stars.library.ucf.edu/honorstheses1990-2015/1744