Environmental footprint of voltammetric sensors based on screen-printed electrodes: an assessment towards "green" sensor manufacturing
Voltammetric sensors based on screen-printed electrodes (SPEs) await diverse applications in environmental monitoring, food, agricultural and biomedical analysis. However, due to the single-use and disposable characteristics of SPEs and the scale of measurements performed, their environmental impact...
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sg-ntu-dr.10356-1596602022-06-28T08:25:03Z Environmental footprint of voltammetric sensors based on screen-printed electrodes: an assessment towards "green" sensor manufacturing Ahamed, Ashiq Ge, Liya Zhao, Ke Veksha, Andrei Bobacka, Johan Lisak, Grzegorz School of Civil and Environmental Engineering Nanyang Environment and Water Research Institute Residues and Resource Reclamation Centre Engineering::Environmental engineering Voltammetric Sensor Screen-Printed Electrode Voltammetric sensors based on screen-printed electrodes (SPEs) await diverse applications in environmental monitoring, food, agricultural and biomedical analysis. However, due to the single-use and disposable characteristics of SPEs and the scale of measurements performed, their environmental impacts should be considered. A life cycle assessment was conducted to evaluate the environmental footprint of SPEs manufactured using various substrate materials (SMs: cotton textile, HDPE plastic, Kraft paper, graphic paper, glass, and ceramic) and electrode materials (EMs: platinum, gold, silver, copper, carbon black, and carbon nanotubes (CNTs)). The greatest environmental impact was observed when cotton textile was used as SM. HDPE plastic demonstrated the least impact (13 out of 19 categories), followed by ceramic, glass and paper. However, considering the end-of-life scenarios and release of microplastics into the environment, ceramic, glass or paper could be the most suitable options for SMs. Amongst the EMs, the replacement of metals, especially noble metals, by carbon-based EMs greatly reduces the environmental footprint of SPEs. Compared with other materials, carbon black was the least impactful on the environment. On the other hand, copper and waste-derived CNTs (WCNTs) showed low impacts except for terrestrial ecotoxicity and human toxicity (non-cancer) potentials. In comparison to commercial CNTs (CCNTs), WCNTs demonstrated lower environmental footprint and comparable voltammetric performance in heavy metal detections, justifying the substitution of CCNTs with WCNTs in commercial applications. In conclusion, a combination of carbon black or WCNTs EMs with ceramic, glass or paper SMs represents the most environmentally friendly SPE configurations for voltammetric sensor arrangement. National Environmental Agency (NEA) This work was supported by the National Environment Agency (NEA) of Singapore under the Urban Solutions and Sustainability (USS) Integration Fund [Project Reference No.: NEA/ETD/R&DPROJ/ CTWL-2018-4D-03]. 2022-06-28T08:25:03Z 2022-06-28T08:25:03Z 2021 Journal Article Ahamed, A., Ge, L., Zhao, K., Veksha, A., Bobacka, J. & Lisak, G. (2021). Environmental footprint of voltammetric sensors based on screen-printed electrodes: an assessment towards "green" sensor manufacturing. Chemosphere, 278, 130462-. https://dx.doi.org/10.1016/j.chemosphere.2021.130462 0045-6535 https://hdl.handle.net/10356/159660 10.1016/j.chemosphere.2021.130462 33845436 2-s2.0-85104102722 278 130462 en NEA/ETD/R&DPROJ/ CTWL-2018-4D-03 Chemosphere © 2021 Elsevier Ltd. All rights reserved. |
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Engineering::Environmental engineering Voltammetric Sensor Screen-Printed Electrode Ahamed, Ashiq Ge, Liya Zhao, Ke Veksha, Andrei Bobacka, Johan Lisak, Grzegorz Environmental footprint of voltammetric sensors based on screen-printed electrodes: an assessment towards "green" sensor manufacturing |
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Voltammetric sensors based on screen-printed electrodes (SPEs) await diverse applications in environmental monitoring, food, agricultural and biomedical analysis. However, due to the single-use and disposable characteristics of SPEs and the scale of measurements performed, their environmental impacts should be considered. A life cycle assessment was conducted to evaluate the environmental footprint of SPEs manufactured using various substrate materials (SMs: cotton textile, HDPE plastic, Kraft paper, graphic paper, glass, and ceramic) and electrode materials (EMs: platinum, gold, silver, copper, carbon black, and carbon nanotubes (CNTs)). The greatest environmental impact was observed when cotton textile was used as SM. HDPE plastic demonstrated the least impact (13 out of 19 categories), followed by ceramic, glass and paper. However, considering the end-of-life scenarios and release of microplastics into the environment, ceramic, glass or paper could be the most suitable options for SMs. Amongst the EMs, the replacement of metals, especially noble metals, by carbon-based EMs greatly reduces the environmental footprint of SPEs. Compared with other materials, carbon black was the least impactful on the environment. On the other hand, copper and waste-derived CNTs (WCNTs) showed low impacts except for terrestrial ecotoxicity and human toxicity (non-cancer) potentials. In comparison to commercial CNTs (CCNTs), WCNTs demonstrated lower environmental footprint and comparable voltammetric performance in heavy metal detections, justifying the substitution of CCNTs with WCNTs in commercial applications. In conclusion, a combination of carbon black or WCNTs EMs with ceramic, glass or paper SMs represents the most environmentally friendly SPE configurations for voltammetric sensor arrangement. |
| author2 |
School of Civil and Environmental Engineering |
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School of Civil and Environmental Engineering Ahamed, Ashiq Ge, Liya Zhao, Ke Veksha, Andrei Bobacka, Johan Lisak, Grzegorz |
| format |
Article |
| author |
Ahamed, Ashiq Ge, Liya Zhao, Ke Veksha, Andrei Bobacka, Johan Lisak, Grzegorz |
| author_sort |
Ahamed, Ashiq |
| title |
Environmental footprint of voltammetric sensors based on screen-printed electrodes: an assessment towards "green" sensor manufacturing |
| title_short |
Environmental footprint of voltammetric sensors based on screen-printed electrodes: an assessment towards "green" sensor manufacturing |
| title_full |
Environmental footprint of voltammetric sensors based on screen-printed electrodes: an assessment towards "green" sensor manufacturing |
| title_fullStr |
Environmental footprint of voltammetric sensors based on screen-printed electrodes: an assessment towards "green" sensor manufacturing |
| title_full_unstemmed |
Environmental footprint of voltammetric sensors based on screen-printed electrodes: an assessment towards "green" sensor manufacturing |
| title_sort |
environmental footprint of voltammetric sensors based on screen-printed electrodes: an assessment towards "green" sensor manufacturing |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/159660 |
| _version_ |
1738844944645226496 |