{"paper_id":"1db4d898-a2e4-42e1-b1bb-ba8b2f9f1af4","body_text":"- Carlos Enrique Torres Méndez ,\n- Sharmilee Nandi ,\n- Klara Martinovic ,\n- Patrizia Kühne ,\n- Yifan Liu ,\n- Sam Taylor ,\n- Maria Lysandrou ,\n- Maria Ines Berrojo Romeyro Mascarenhas ,\n- Viktoria Langwallner ,\n- Javier Enrique Sebastián Alonso ,\n- Ivana Jovanovic ,\n- Maike Lüftner ,\n- Georgia-Vasiliki Gkountana ,\n- David Bern ,\n- Abdul-Raouf Atif ,\n- Ehsan Manouchehri Doulabi ,\n- Gemma Mestres and\n- Masood Kamali-Moghaddam\nSubmitting author affiliation:\nUppsala University, Uppsala, Sweden\nBeilstein Arch. 2025, 20251. https://doi.org/10.3762/bxiv.2025.1.v1\nPublished 13 Jan 2025\nRead the peer-reviewed version of this preprint:\nhttps://doi.org/10.3762/bjnano.16.42\nShow All Preprints\nNanotechnology\nOrganic chemistry\nBioorganic chemistry / chemical biology\nCatalysis\nChemical methods and reactions\nFlow and process chemistry\nGreen and sustainable chemistry\nMaterials chemistry\nMedicinal and pharmaceutical chemistry\nNano- and molecular-scale electronics\nNano-biomaterials and bioscience\nNanomagnetics\nNanomaterials, thin films and nanointerfaces\nNanomedicine\nNanometrology and nanomechanics\nNano-optics\nNanopatterning, self-assembly and nanofabrication\nNanostructures for energy and sensing applications\nNatural products chemistry\nOrgano main group chemistry\nOther nanotechnology (unclassified)\nOther organic chemistry (unclassified)\nPhotochemistry and photovoltaics\nPhysical organic chemistry\nSupramolecular chemistry\nAn electrochemical biosensor based on modified carbon screen-printed electrodes (CSPE) was developed for the detection of hemagglutinin of influenza A H1N1 virus (H1). Gold nanoflowers were electrodeposited on the electrode to increase conductivity and surface area. The electrochemical signal was amplified by functionalization of the gold nanoflowers with 4-aminothiophenol, which resulted in a 100-fold decrease of the charge transfer resistance due to a tunneling effect. Subsequently, monoclonal antibodies against H1 were immobilized on the surface via covalent amide bond formation, followed by blocking with bovine serum albumin to minimize nonspecific hydrophobic binding. The electrodes were characterized by cyclic voltammetry and electrochemical impedance spectroscopy experiments in presence of [Fe(CN)6]3−/4−. Differential pulse voltammetry was used to measure the change in current across the electrode as a function of H1 concentration. This was performed on a series of samples of artificial saliva containing H1 protein in a clinically relevant concentration range. In these experiments, the biosensor showed a limit of detection of 19 pg/mL. Finally, the biosensor platform was coupled to an automated microfluidics system and no significant decrease of the electrochemical signal was observed.\nKeywords: Electrodeposition; cyclic voltammetry; electrochemical impedance spectroscopy; differential pulse voltammetry; charge transfer.\n| Format: DOCX | Size: 305.9 KB | Download |\nWhen a peer-reviewed version of this preprint is available, this information will be updated in the information box above. If no peer-reviewed version is available, please cite this preprint using the following information:\nTorres Méndez, C. E.; Nandi, S.; Martinovic, K.; Kühne, P.; Liu, Y.; Taylor, S.; Lysandrou, M.; Romeyro Mascarenhas, M. I. B.; Langwallner, V.; Sebastián Alonso, J. E.; Jovanovic, I.; Lüftner, M.; Gkountana, G.-V.; Bern, D.; Atif, A.-R.; Manouchehri Doulabi, E.; Mestres, G.; Kamali-Moghaddam, M. Beilstein Arch. 2025, 20251. doi:10.3762/bxiv.2025.1.v1\nCitation data can be downloaded as file using the \"Download\" button or used for copy/paste from the text window below.\nCitation data in RIS format can be imported by all major citation management software, including EndNote, ProCite, RefWorks, and\nZotero.\n© 2025 Torres Méndez et al.; licensee Beilstein-Institut.\nThis is an open access work licensed under the terms of the Beilstein-Institut Open Access License Agreement (https://www.beilstein-archives.org/xiv/terms), which is identical to the Creative Commons Attribution 4.0 International License (https://creativecommons.org/licenses/by/4.0). The reuse of material under this license requires that the author(s), source and license are credited. Third-party material in this work could be subject to other licenses (typically indicated in the credit line), and in this case, users are required to obtain permission from the license holder to reuse the material.","source_license":"CC-BY-4.0","license_restricted":false}