Nanoengineering of Phyllosilicates for Novel Gas Sensing Applications
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posted on 2024-12-20, 04:01authored byFaraj Abdulnasser Mahmoud Al-Badani
This work investigates the novel employment of nanoengineered phyllosilicates as chemiresistive gas sensors towards the detection of volatile organic compounds, chemical warfare agents, toxic industrial chemicals, and a plethora of other analytes. By leveraging fundamental theories of metal oxide semiconductor gas sensing mechanism, material nanoengineering, and electrochemistry, the sensing mechanism, sensitivity, and cross-sensitivity of phyllosilicates as chemiresistive gas sensors is elucidated. To overcome the inherent limitations of sensitivity and selectivity, a morphological and compositional study of phyllosilicates is employed, where the morphology is varied to nano sheets, tubes, flowers, and amorphous structures, whereas the composition of the material is tuned via cation substitution and decoration with a breadth of metals. The attained results in this work exhibit the novel and promising applications of phyllosilicate in the field of electrochemical gas sensing by combining mass-transport control, electrical sensitization, and chemical sensitization on the nanoscale.
History
Date Created
2024-12-02
Date Modified
2024-12-18
Defense Date
2024-11-26
CIP Code
14.1801
Research Director(s)
Nosang Myung
Committee Members
Yamil Colon
Paul Bohn
Matt Webber
Degree
Doctor of Philosophy
Degree Level
Doctoral Dissertation
Language
English
Library Record
006642771
OCLC Number
1479731384
Publisher
University of Notre Dame
Additional Groups
Chemical and Biomolecular Engineering
Program Name
Chemical Engineering: Materials Science and Engineering