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01/
Carbon-nitrogen-metal material as a high performing oxygen evolution catalyst
02/
Insights into bloodstain degradation and time since deposition estimation using electrochemistry
03/
Hybrid Supercapacitor Electrode Materials via Molecular Imprinting of Nitrogenous Ligands and Iron Complexes into Carbon Support
05/
Ni on graphene oxide: a highly active and stable alkaline oxygen evolution catalyst
06/
Effect of Transition Metals on the Oxygen Reduction Reaction Activity at Metal-N3/C Active Sites
07/
Probing the influence of the carbon support on the activity of Fe-N3/C model active sites for the oxygen reduction reaction
08/
Probing the degradation of carbon black electrodes in the presence of chloride by electrochemcial impedance spectroscopy
09/
High-performance water oxidation catalysts based on the spontaneous deposition of ruthenium on electrochemically exfoliated graphene oxide
DOI: 10.1039/c9cy02017a
10/
A highly durable N-enriched titanium nanotube suboxide fuel cell catalyst support
11/
Effect of Carbon Support on Fe-N3/C Model Active Site for the Oxygen Reduction Reaction
13/
Spacer Conjugation and Surface Support Effects in Monolayer Electrochromic Materials
14/
A novel material for the detection and removal of mercury(II) based on a 2,6-bis(2-thienyl)pyridine receptor
DOI: 10.1039/C9TC03201K
15/
Fe-N3/C active catalytic sites for the oxygen reduction reaction prepared with molecular-level geometry control through the covalent immobilization of an iron-terpyridine motif onto carbon
17/
Enhancing fuel cell catalyst layer stability using a dual-function sulfonated silica-based ionomer
Research Associate
Dr. Holly M. Fruehwald is currently a Research Associate at the National Research Council of Canada. She does research in the areas of Materials Science, electrochemistry, and chemistry.
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Alexander Graham Bell Canada Graduate Scholarship- Doctoral (CGS-D) Recipient
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International Younger Chemists Network Canadian Delegate 2021
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2021 Electrochemical Society Canada Section Student Award Winner
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2022 NSERC PDF Recipient
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