A Unified Analytical Method Greenness Score (uAMGS) Quantifies How Microscopic Imaging Is Greener Than Conventional Liquid Chromatography

Abstract

Green chemistry is a set of principles for assessing, developing, and implementing methods that are safer, more efficient, and less detrimental to the environment. The analytical method greenness score (AMGS) is one of many metrics that attempt to evaluate traditional liquid chromatography (LC) based on the energy consumption of the instrument and the safety, health risks, and environmental impact of the solvents employed. Unfortunately, in practice, the AMGS is primarily focused on traditional separation methods in the pharmaceutical industry and is not amenable to cutting-edge separation science, including miniaturization. To broaden this scope, the unified Analytical Method Greenness Score (uAMGS) is presented here, which clarifies and expands on the underlying mathematics and incorporates both dimensional and uncertainty analysis, enabling its application to a broader range of analytical techniques. The uAMGS is used to compare the greenness of two distinct methods: single-molecule microscopy (SMM) and high-performance liquid chromatography (HPLC), which were used to collect equivalent data. uAMGS determines that SMM is significantly greener than HPLC due primarily to decreased solvent consumption. Overall, the uAMGS should allow chemists ranging from undergraduates to industrial PhDs to assess the greenness of a wide range of separations.

Publisher

American Chemical Society (ACS)

Publication Date

6-22-2026

Publication Title

ACS Sustainable Chemistry & Engineering

Department

Chemistry and Biochemistry

Document Type

Article

DOI

https://doi.org/10.1021/acssuschemeng.6c02093

Keywords

Greenness metric, Chromatography, Chemical separations, Single-molecule microscopy, High-performance, Liquid chromatography, Minaturization

Language

English

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