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Planetary metrics for the absolute environmental sustainability assessment of chemicals

Víctor Tulus, Javier Pérez‐Ramírez, Gonzalo Guillén‐Gosálbez

2021Green Chemistry65 citationsDOIOpen Access PDF

Abstract

, climate change, ocean acidification and biosphere integrity). However, their levels of transgression fail to correlate with their carbon footprints, currently the focus of most studies, implying that chemicals entailing higher greenhouse gas emissions are not necessarily less environmentally sustainable in absolute terms. Our work points towards the need to embrace absolute sustainability criteria in current environmental assessments, which will require agreeing on how to allocate shares of the planet's ecological capacity among anthropogenic activities, including chemicals' production. This work's absolute environmental sustainability assessment (AESA) method, which could complement standard life cycle assessment approaches, might help experimental researchers working in green chemistry develop truly 'green' products. The AESA method should be taken as a starting point to devise holistic approaches for quantifying the absolute environmental impact of chemicals to guide research and policymaking more sensibly.

Topics & Concepts

Absolute (philosophy)SustainabilityEnvironmental scienceEnvironmental impact assessmentPlanetary boundariesEnvironmental chemistryChemistryAstrobiologyEnvironmental resource managementEcologyPhysicsBiologyEpistemologyPhilosophyChemistry and Chemical EngineeringEnvironmental Impact and SustainabilityGlobal Energy and Sustainability Research
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