Detail publikace

Chiral 3D‐printed Bioelectrodes

MUÑOZ MARTIN, J. REDONDO NEGRETE, E. PUMERA, M.

Originální název

Chiral 3D‐printed Bioelectrodes

Typ

článek v časopise ve Web of Science, Jimp

Jazyk

angličtina

Originální abstrakt

3D printing technology has gained great interest since it enables decentralized and customized manufacturing of 3D‐printed electronic devices. From an electrochemical point of view, 3D‐printed electrodes present promising achievements for (bio)sensing approaches. Herein, the feasibility of exploiting 3D‐printed electrode substrates toward chiral analyses—a relevant topic owing to the homochiral nature of the biochemistry of life—has been interrogated for the first time. As a proof‐of‐concept, as‐printed 3D‐printed nanocomposite carbon electrodes (3D‐nCEs) have been biofunctionalized with a model chiral selector like the class‐enzyme L‐amino acid oxidase for the ultrasensitive electrochemical discrimination of amino acid enantiomers. Interestingly, an unprecedented electrochemical approach has been devised, which relies on impedimetrically monitoring changes at the bioelectrode interface derived from the reactivity between the H2O2 by‐product generated during enzymatic reactions and the 3D‐nCE surface, yielding to the screening of amino acid enantiomers even at femtomolar concentrations. Different characterization techniques have been employed to elucidate the impedimetric mechanism involved for the electroanalysis. Accordingly, this work not only demonstrates the feasibility of exploiting 3D‐printed electronic devices for enantiosensing achievements, but also brings out a general and straightforward electrochemical approach for the sensitive and selective analysis of enzymatic systems.

Klíčová slova

3D-printed carbon electrodes, amino acids, biosensors, electrochemical impedance spectroscopy, enantiodiscrimination, enantiomers platforms, enzymatic sensors

Autoři

MUÑOZ MARTIN, J.; REDONDO NEGRETE, E.; PUMERA, M.

Vydáno

1. 4. 2021

Nakladatel

Wiley Online Library

ISSN

1616-301X

Periodikum

ADVANCED FUNCTIONAL MATERIALS

Ročník

31

Číslo

16

Stát

Spolková republika Německo

Strany od

2010608-1

Strany do

2010608-9

Strany počet

9

URL