Blar i USN Open Archive på forfatter "Do, Uyen Phuong"
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Glucose energy harvester for self-powering of remote distributed bioanalytical microsystems
Do, Uyen Phuong (Doctoral dissertations at the University of South-Eastern Norway;88, Doctoral thesis, 2021)Implantable medical devices came of age with the artificial pacemaker more than 60 years ago. Their true potential of being located directly where their prosthetic or therapeutic actions are needed will be further enhanced ... -
A micro fuel cell for abiotical catalysis of glucose
Do, Uyen Phuong; Seland, Frode; Johannessen, Erik Andrew (Peer reviewed; Journal article, 2020)A miniaturised abiotical fuel cell designed for operation inside a physiologically relevant mixed fuel environment of dissolved di-oxygen (DO) and glucose, have been realized by embedding the glucose sensitive anode below ... -
Raney-platinum thin film electrodes for the catalysis of glucose in abiotically catalyzed micro-glucose fuel cells
Do, Uyen Phuong; Seland, Frode; Wang, Kaiying; Johannessen, Erik Andrew (Peer reviewed; Journal article, 2019)Fuel cells capable of synthetic glucose catalysis have revolved around the implementation of abiotic catalysts that require extreme acid and alkaline environments. These are not compatible with implantable medical sensor ... -
The real area of nanoporous catalytic surfaces of gold and palladium in aqueous solutions
Do, Uyen Phuong; Seland, Frode; Johannessen, Erik Andrew (Journal article; Peer reviewed, 2018)The determination of the real, or active, area of a catalytic surface is a key requirement to understand or quantify parameters related to its electrochemical behavior. There are several experimental methods available, but ... -
Thin film nanoporous electrodes for the selective catalysis of oxygen in abiotically catalysed micro glucose fuel cells
Do, Uyen Phuong; Seland, Frode; Maharbiz, Michel M.; Wang, Kaiying; Johannesen, Øivind; Johannessen, Erik Andrew (Journal article; Peer reviewed, 2016)Selective reduction of oxygen is an important property of fuel cells designed to operate in a mixed fuel environment containing both oxidizing and reducing reactants. This would be of particular importance in the design ...