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What are Green Chemistry & Engineering Metrics?

Chemists and engineers measure, track and assess performance in a given area, such as sustainability, using metrics.

How Green Chemistry & Engineering Metrics Relate to Green Chemistry:

Comprehensive assessment of a process or product’s sustainability (sometimes called “greenness�) requires quantifying environmental and human health impacts. This means going beyond calculating yield alone. It’s also essential to compare the hazards of chemicals and processes currently in use with potentially safer alternatives.

To do this, scientists must ask the right questions, find the right metrics, start early and measure at key stages. There is a large body of work on metrics that help assess the progress of green and sustainable chemistries. The research in this area is growing and continually being improved upon to facilitate green chemistry development and implementation.

• Real-time analysis for Pollution Prevention - Analytical methodologies need to be further developed to allow for real-time, in-process monitoring and control prior to the formation of hazardous substances

• Maximize Resource Efficiency â€�using metrics to measure byproducts, energy use and mass balances helps minimize waste and ensure processes are efficient

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Examples of Green Chemistry & Engineering Metrics

Molar Efficiency

The University of Strathclyde and GlaxoSmithKline collaborated to develop : a metric designed “to facilitate identification of more sustainable synthetic transformations.� Intended specifically for use in discovery-phase medicinal chemistry, the metric can help researchers identify sustainability concerns early in drug development. Molar Efficiency uniquely allows for comparisons of efficiency between different classes of reactions through quantification of moles of inputs and outputs.

Process Mass Intensity (PMI)

The ACS GCI Pharmaceutical Roundtable the key green metric for pharmaceuticals. PMI is determined by how much of the total mass of materials used � such as reagents and solvents � ends up in the final product. This approach facilitates a focus designing a reaction with minimal inputs rather than dealing with unwanted outputs after the fact.

Atom Economy

Professor Barry Trost developed the concept of atom economy: chemical reactions that do not waste atoms. Atom economy encourages reducing the use of nonrenewable resources, minimizing the amount of waste, and reducing the number of steps used to synthesize chemicals. While this concept has spread awareness about the need to be cognizant of waste produced by chemical reactions, it’s essential to consider atom economy in tandem with others for a complete picture of sustainability.

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ACS GCI Resources on Green Chemistry and Engineering Metrics

• Process Mass Intensity Calculator and Convergent Process Mass Intensity Calculator
• Green Chemistry Innovation Scorecard Calculator
• (Webinar, 2012)
• SC Johnson and the Greenlist Challenge (Case Study, 2009)
• Lessons learned through measuring green chemistry performance—the pharmaceutical experience (Presentation, 2007)
• (The Nexus, 2017)

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Selected Literature

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