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Bibliographic Details
Main Authors: Woods-Robinson, Rachel, Trewartha, Amalie
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.22987
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author Woods-Robinson, Rachel
Trewartha, Amalie
author_facet Woods-Robinson, Rachel
Trewartha, Amalie
contents While material innovation can enable sustainable development, environmental and social impacts of emerging materials are often assessed only after design choices are "locked in." Here, we argue for a shift in perspective: life cycle thinking should enter at the earliest stages of materials development, where uncertainty is highest but design freedom is greatest. Rather than treating incomplete knowledge as a barrier, we reframe it as an inherent feature that can illuminate trajectories, tradeoffs, and consequences -- and enable intervention while change remains possible. Focusing on inorganic solid materials, we identify disconnects between materials science and sustainability analysis, propose an adaptable, decision-oriented framework to embed sustainability into material design across evolving technology stages, and highlight how recent advances such as predictive synthesis can help operationalize this integration. Guided by the framework's governing principles, we outline a cross-stakeholder agenda to shift from retrospective correction to anticipatory, responsible material design from the outset.
format Preprint
id arxiv_https___arxiv_org_abs_2604_22987
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Sustainability-informed materials design
Woods-Robinson, Rachel
Trewartha, Amalie
Materials Science
While material innovation can enable sustainable development, environmental and social impacts of emerging materials are often assessed only after design choices are "locked in." Here, we argue for a shift in perspective: life cycle thinking should enter at the earliest stages of materials development, where uncertainty is highest but design freedom is greatest. Rather than treating incomplete knowledge as a barrier, we reframe it as an inherent feature that can illuminate trajectories, tradeoffs, and consequences -- and enable intervention while change remains possible. Focusing on inorganic solid materials, we identify disconnects between materials science and sustainability analysis, propose an adaptable, decision-oriented framework to embed sustainability into material design across evolving technology stages, and highlight how recent advances such as predictive synthesis can help operationalize this integration. Guided by the framework's governing principles, we outline a cross-stakeholder agenda to shift from retrospective correction to anticipatory, responsible material design from the outset.
title Sustainability-informed materials design
topic Materials Science
url https://arxiv.org/abs/2604.22987