Item – Theses Canada

OCLC number: 1019491202
Link(s) to full text: LAC copy
Author: Fuerth, Dillon Adam.
Title: Novel Carbon-based Electrode Materials for Up-scaled Microfluidic Fuel Cells.
Degree: M.A. Sc. -- University of Toronto, 2012
Publisher: Ottawa : Library and Archives Canada = Bibliothèque et Archives Canada, 2013.
Description: 1 online resource
Notes: Includes bibliographical references.
Abstract: <?Pub Inc> In this work, a MFC fabrication procedure including two non-conventional techniques (partial baking and cap-sealing) were employed for the development of an up-scaled microfluidic fuel cell (MFC). Novel carbon-based electrode materials were employed, including carbon foam, fibre, and cloth, the results from which were compared with traditionally-employed carbon paper. The utilization of carbon cloth led to 15% of the maximum power that resulted from carbon paper; however, carbon fibre led to a 24.6% higher power density than carbon paper (normalized by electrode volume). When normalized by projected electrode area, the utilization of carbon foams resulted in power densities up to 42.5% higher than that from carbon paper. The impact of catalyst loading on MFC performance was also investigated, with an increase from 10.9 to 48.3 mgPt cm-2 resulting in a 195% increase in power density.
ISBN: 9780494929216; 0494929219; 9780494929216

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