Maximizing the safety and sustainability of MXenes

Steffen Foss Hansen; Maria Bille Nielsen; Lars Michael Skjolding; Jasreen Kaur; Nindya Desivyana; Frida Hermansson; James Bird; Suelen Barg; Alexander Khort; Inger Odnevall; Bengt Fadeel; Rickard Arvidsson

doi:10.1038/s41598-024-82063-w

Maximizing the safety and sustainability of MXenes

Steffen Foss Hansen^*, Maria Bille Nielsen, Lars Michael Skjolding, Jasreen Kaur, Nindya Desivyana, Frida Hermansson, James Bird, Suelen Barg, Alexander Khort, Inger Odnevall, Bengt Fadeel, Rickard Arvidsson

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Safe and Sustainable by Design (SSbD) is a new regulatory concept guiding chemical and material innovation. The European Commission has recommended a two-stage SSbD framework and plan to revise it based on stakeholder feedback. The framework involves establishing key (re)design SSbD principles and assessment of the final innovation, however the applicability of the framework to advanced materials remains to be addressed. Here, we applied the SSbD framework on Ti₃C₂T_x MXenes, an emerging advanced material, by (1) reviewing health, environmental and safety information; (2) characterizing MXenes transformation/dissolution in different media; (3) conducting (eco)toxicological experiments, and (4) completing a prospective life-cycle assessment. Our analysis suggests that Ti₃C₂T_x is safe and sustainable when applying the SSbD framework. Further research is needed regarding long-term hazardous effects of Ti₃C₂T_x and the sustainable production of the titanium precursor. Guidance is also needed on how much weight one should assign to the different lines of evidence in the overall SSbD assessment.

Original language	English
Article number	31030
Journal	Scientific Reports
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41598-024-82063-w
Publication status	Published - Dec 2024

Keywords

Advanced materials
Life cycle assessment
MXenes
Safe and sustainable by design

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1038/s41598-024-82063-w

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abstract = "Safe and Sustainable by Design (SSbD) is a new regulatory concept guiding chemical and material innovation. The European Commission has recommended a two-stage SSbD framework and plan to revise it based on stakeholder feedback. The framework involves establishing key (re)design SSbD principles and assessment of the final innovation, however the applicability of the framework to advanced materials remains to be addressed. Here, we applied the SSbD framework on Ti3C2Tx MXenes, an emerging advanced material, by (1) reviewing health, environmental and safety information; (2) characterizing MXenes transformation/dissolution in different media; (3) conducting (eco)toxicological experiments, and (4) completing a prospective life-cycle assessment. Our analysis suggests that Ti3C2Tx is safe and sustainable when applying the SSbD framework. Further research is needed regarding long-term hazardous effects of Ti3C2Tx and the sustainable production of the titanium precursor. Guidance is also needed on how much weight one should assign to the different lines of evidence in the overall SSbD assessment.",

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AU - Skjolding, Lars Michael

AU - Kaur, Jasreen

AU - Desivyana, Nindya

AU - Hermansson, Frida

AU - Bird, James

AU - Barg, Suelen

AU - Khort, Alexander

AU - Odnevall, Inger

AU - Fadeel, Bengt

AU - Arvidsson, Rickard

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N2 - Safe and Sustainable by Design (SSbD) is a new regulatory concept guiding chemical and material innovation. The European Commission has recommended a two-stage SSbD framework and plan to revise it based on stakeholder feedback. The framework involves establishing key (re)design SSbD principles and assessment of the final innovation, however the applicability of the framework to advanced materials remains to be addressed. Here, we applied the SSbD framework on Ti3C2Tx MXenes, an emerging advanced material, by (1) reviewing health, environmental and safety information; (2) characterizing MXenes transformation/dissolution in different media; (3) conducting (eco)toxicological experiments, and (4) completing a prospective life-cycle assessment. Our analysis suggests that Ti3C2Tx is safe and sustainable when applying the SSbD framework. Further research is needed regarding long-term hazardous effects of Ti3C2Tx and the sustainable production of the titanium precursor. Guidance is also needed on how much weight one should assign to the different lines of evidence in the overall SSbD assessment.

AB - Safe and Sustainable by Design (SSbD) is a new regulatory concept guiding chemical and material innovation. The European Commission has recommended a two-stage SSbD framework and plan to revise it based on stakeholder feedback. The framework involves establishing key (re)design SSbD principles and assessment of the final innovation, however the applicability of the framework to advanced materials remains to be addressed. Here, we applied the SSbD framework on Ti3C2Tx MXenes, an emerging advanced material, by (1) reviewing health, environmental and safety information; (2) characterizing MXenes transformation/dissolution in different media; (3) conducting (eco)toxicological experiments, and (4) completing a prospective life-cycle assessment. Our analysis suggests that Ti3C2Tx is safe and sustainable when applying the SSbD framework. Further research is needed regarding long-term hazardous effects of Ti3C2Tx and the sustainable production of the titanium precursor. Guidance is also needed on how much weight one should assign to the different lines of evidence in the overall SSbD assessment.

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Maximizing the safety and sustainability of MXenes

Abstract

Keywords

UN SDGs

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