1 AIT Asian Institute of Technology

Optimization of inkjetted electrodes using water-based silver nanoink

AuthorJoseph, Claire M.
Call NumberAIT Thesis no.ISE-11-13
Subject(s)Nanoparticles
Ink-jet printing

NoteA thesis submitted in pa11ial fulfiHment of the requirements for the degree of Master of Science in Microelectronics and Embedded System, School of Engineering and Technology
PublisherAsian Institute of Technology
Series StatementThesis ; no. ISE-11-13
AbstractInkjet printing of nanoparticles is practically gammg momentum to revolutionize the emerging nanotechnology. An infinite potential applications lead to flexible devices, remarkably no waste process, low-cost gadgets and novel printed products unimaginable in the next decades. In this study, an aqueous-based silver nanoparticle ink with 5% metal loading was developed to fabricate electrodes intended for gas sensing application. The metallic nanoink was optimized to attain the most conductive electrodes after heat treatment. It was then printed on alumina substrates using a customized inkjet printer followed by nickel electroplating. Critical inkjet parameters such as substrate temperature and number of ink deposition during printing were considered to eliminate unwanted deposits on undesignated areas. The electrodes were designed using an interdigitated array pattern with the goal of reducing the inter-electrode distance to less than 1 mm. The inkjetted silver-based electrodes with inter-electrode gaps of - 0.5 mm and - 0.2 mm with - 0.15 mm line thickness were evaluated for gas sensor performance. Furthermore, they were used to study the effects and influence on the overall gas sensing characteristics and properties.
Year2011
Corresponding Series Added EntryAsian Institute of Technology.
TypeThesis
SchoolSchool of Engineering and Technology (SET)
DepartmentDepartment of Industrial Systems Engineering (DISE)
Academic Program/FoSIndustrial Systems Engineering (ISE)
Chairperson(s)Dutta, Joydeep;
Examination Committee(s)Hornyak, Gabor L.;Chanchana Thanachayanont;
Scholarship Donor(s)Asian Development Bank - Japan Scholarship Program (ADB-JSP);
DegreeThesis (M. Sc.) - Asian Institute of Technology, 2011


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