An All-Green Photo-Electrochemical Biosensor Using Microalgae Immobilized on Eco-Designed Lignin-Based Screen-Printed Electrodes to Detect Sustainable Nanoherbicides

Author:

Antonacci Amina1,Frisulli Valeria1,Carvalho Lucas Bragança2ORCID,Fraceto Leonardo Fernandes2ORCID,Miranda Bruno3ORCID,De Stefano Luca3ORCID,Johanningmeier Udo4,Giardi Maria Teresa15ORCID,Scognamiglio Viviana1ORCID

Affiliation:

1. National Research Council, Department of Chemical Sciences and Materials Technologies, Institute of Crystallography, Via Salaria Km 29.3, 00015 Rome, Italy

2. Laboratory of Environmental Nanotechnology, Institute of Science and Technology of Sorocaba, São Paulo State University (UNESP), Av. Três de Março, 511–CEP, Sorocaba 18-087-180, Brazil

3. National Research Council, Department of Physical Sciences and Technologies of Matter, Institute of Applied Sciences and Intelligent Systems, Via Pietro Castellino 111, 80131 Naples, Italy

4. Institut für Pflanzenphysiologie, Martin-Luther-Universität Halle-Wittenberg, Weinbergweg 10, 06120 Halle, Germany

5. Biosensor S.r.l., Via degli Olmetti, 44, 00060 Rome, Italy

Abstract

Herein, a novel completely green biosensor was designed exploiting both the biological and instrumental components made of eco-friendly materials for the detection of herbicides encapsulated into biodegradable nanoparticles for a sustainable agriculture. Similar nanocarriers, indeed, can deliver herbicides to the correct location, reducing the amount of active chemicals deposited in the plant, impacting the agricultural and food industries less. However, handling measurements of nanoherbicides is crucial to provide comprehensive information about their status in the agricultural fields to support farmers in decision-making. In detail, whole cells of the unicellular green photosynthetic alga Chlamydomonas reinhardtii UV180 mutant were immobilized by a green protocol on carbonized lignin screen-printed electrodes and integrated into a photo-electrochemical transductor for the detection of nanoformulated atrazine. Specifically, atrazine encapsulated into zein and chitosan doped poly-ε-caprolactone nanoparticles (atrazine-zein and atrazine-PCL-Ch) were analyzed following the current signals at a fixed applied potential of 0.8 V, in a range between 0.1 and 5 µM, indicating a linear relationship in the measured dose-response curves and a detection limit of 0.9 and 1.1 nM, respectively. Interference studies resulted in no interference from 10 ppb bisphenol A, 1 ppb paraoxon, 100 ppb arsenic, 20 ppb copper, 5 ppb cadmium, and 10 ppb lead at safety limits. Finally, no matrix effect was observed on the biosensor response from wastewater samples and satisfactory recovery values of 106 ± 8% and 93 ± 7% were obtained for atrazine-zein and atrazine-PCL-Ch, respectively. A working stability of 10 h was achieved.

Funder

Interreg Italy-Croatia Project AdSWiM

São Paulo Research Foundation

Conselho Nacional de Desenvolvimento Científico e Tecnológico

Publisher

MDPI AG

Subject

Inorganic Chemistry,Organic Chemistry,Physical and Theoretical Chemistry,Computer Science Applications,Spectroscopy,Molecular Biology,General Medicine,Catalysis

Reference20 articles.

1. (2023, May 01). Sustainable Development Goals. Available online: https://sdgs.un.org/goals.

2. (2023, May 01). Sustainable Development Goal 6. Available online: https://sdgs.un.org/goals/goal6.

3. What makes nanotechnologies applied to agriculture green?;Bartolucci;Nano Today,2022

4. Jampílek, J., and Kráľová, K. (2017). New Pesticides and Soil Sensors, Academic Press.

5. Nanotechnology in agriculture: Which innovation potential does it have?;Fraceto;Front. Environ. Sci.,2016

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