Fernando Otero scite author profile

Electrochemical biosensors benefit from the simplicity, sensitivity, and rapid response of electroanalytical devices coupled with the selectivity of biorecognition molecules. The implementation of electrochemical biosensors in a clinical analysis can provide a sensitive and rapid response for the analysis of biomarkers, with the most successful being glucose sensors for diabetes patients. This review summarizes recent work on the use of structured materials such as nanoporous metals, graphene, carbon nanotubes, and ordered mesoporous carbon for biosensing applications. We also describe the use of additive manufacturing (AM) and review recent progress and challenges for the use of AM in biosensing applications.

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Enzyme immobilization on metal organic frameworks: Laccase from Aspergillus sp. is better adapted to ZIF-zni rather than Fe-BTC

Tocco

Carucci

Todde

et al. 2021

Colloids and Surfaces B: Biointerfaces

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Electrochemical biosensor for the detection of a sequence of the TP53 gene using a methylene blue labelled DNA probe

Otero

Shortall

Salaj-Kośla

et al. 2021

Electrochimica Acta

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Enzyme Immobilization on Metal Organic Frameworks: the Effect of Buffer on the Stability of the Support

et al. 2022

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Metal organic frameworks (MOFs) have been used to encapsulate an array of enzymes in a rapid and facile manner; however, the stability of MOFs as supports for enzymes has not been examined in detail. This study examines the stability of MOFs with different compositions (Fe-BTC, Co-TMA, Ni-TMA, Cu-TMA, and ZIF-zni) in buffered solutions commonly used in enzyme immobilization and biocatalysis. Stability was assessed via quantification of the release of metals by inductively coupled plasma optical emission spectroscopy. The buffers used had varied effects on different MOF supports, with incubation of all MOFs in buffers resulting in the release of metal ions to varying extents. Fe-BTC was completely dissolved in citrate, a buffer that has a profound destabilizing effect on all MOFs analyzed, precluding its use with MOFs. MOFs were more stable in acetate, potassium phosphate, and Tris HCl buffers. The results obtained provide a guide for the selection of an appropriate buffer with a particular MOF as a support for the immobilization of an enzyme. In addition, these results identify the requirement to develop methods of improving the stability of MOFs in aqueous solutions. The use of polymer coatings was evaluated with polyacrylic acid (PAA) providing an improved level of stability. Lipase was immobilized in Fe-BTC with PAA coating, resulting in a stable biocatalyst with retention of activity in comparison to the free enzyme.

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An electrochemical NADH biosensor based on a nanoporous gold electrode modified with diaphorase and an osmium polymer

Otero¹,

Mandal²,

Leech³

et al. 2022

Sensors and Actuators Reports

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Fernando Otero

Biosensors—Recent Advances and Future Challenges in Electrode Materials

Enzyme immobilization on metal organic frameworks: Laccase from Aspergillus sp. is better adapted to ZIF-zni rather than Fe-BTC

Electrochemical biosensor for the detection of a sequence of the TP53 gene using a methylene blue labelled DNA probe

Enzyme Immobilization on Metal Organic Frameworks: the Effect of Buffer on the Stability of the Support

An electrochemical NADH biosensor based on a nanoporous gold electrode modified with diaphorase and an osmium polymer

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