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Main Authors: Franceschini, Filippo, Fernandes, Catarina, Schouteden, Koen, Ustarroz, Jon, Locquet, Jean Pierre, Taurino, Irene
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2501.05953
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author Franceschini, Filippo
Fernandes, Catarina
Schouteden, Koen
Ustarroz, Jon
Locquet, Jean Pierre
Taurino, Irene
author_facet Franceschini, Filippo
Fernandes, Catarina
Schouteden, Koen
Ustarroz, Jon
Locquet, Jean Pierre
Taurino, Irene
contents Glucose oxidation is a key reaction in biosensing and energy conversion, with anodized copper electrodes showing great potential as catalysts for its enhancement. This study explores the relationship between anodization parameters and glucose oxidation on thin copper films, providing valuable insights for optimization. By adjusting anodization parameters, specific species such as Cu2O, Cu(OH)2, and CuO can be selectively formed, each exhibiting different catalytic activities. Applying polarization in 1 M KOH at 0 V (vs Ag|AgCl) generates a highly active CuO surface layer, leading to significant performance improvements over bare copper electrodes. Specifically, sensitivity increases by 55% in the 0.1 mM-0.5 mM range and 73% in the 0.75 mM-2 mM range. Additionally, the electrodes demonstrate an exceptionally low detection limit of just 0.004 mM. These results are attributed to scalable, reproducible manufacturing on cleanroom-compatible platforms. This study not only sheds light on the effects of thin copper film anodization on glucose oxidation but also provides a practical approach for enhancing the efficiency of copper-based systems in biosensing and energy conversion applications.
format Preprint
id arxiv_https___arxiv_org_abs_2501_05953
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Tailoring the Glucose Oxidation Activity of Anodized Copper Films on Microfabricated Platforms
Franceschini, Filippo
Fernandes, Catarina
Schouteden, Koen
Ustarroz, Jon
Locquet, Jean Pierre
Taurino, Irene
Materials Science
Glucose oxidation is a key reaction in biosensing and energy conversion, with anodized copper electrodes showing great potential as catalysts for its enhancement. This study explores the relationship between anodization parameters and glucose oxidation on thin copper films, providing valuable insights for optimization. By adjusting anodization parameters, specific species such as Cu2O, Cu(OH)2, and CuO can be selectively formed, each exhibiting different catalytic activities. Applying polarization in 1 M KOH at 0 V (vs Ag|AgCl) generates a highly active CuO surface layer, leading to significant performance improvements over bare copper electrodes. Specifically, sensitivity increases by 55% in the 0.1 mM-0.5 mM range and 73% in the 0.75 mM-2 mM range. Additionally, the electrodes demonstrate an exceptionally low detection limit of just 0.004 mM. These results are attributed to scalable, reproducible manufacturing on cleanroom-compatible platforms. This study not only sheds light on the effects of thin copper film anodization on glucose oxidation but also provides a practical approach for enhancing the efficiency of copper-based systems in biosensing and energy conversion applications.
title Tailoring the Glucose Oxidation Activity of Anodized Copper Films on Microfabricated Platforms
topic Materials Science
url https://arxiv.org/abs/2501.05953