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Key Green Chemistry Research Areas - A Perspective from Pharmaceutical Manufacturers

Key Green Chemistry Research Areas - A Perspective from Pharmaceutical Manufacturers. Membership as of August 1, 2006. ACS Green Chemistry Institute Pharmaceutical Roundtable. Membership is open to all pharmaceutical research, development, and

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Key Green Chemistry Research Areas - A Perspective from Pharmaceutical Manufacturers

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  1. Key Green Chemistry Research Areas - A Perspective from Pharmaceutical Manufacturers

  2. Membership as of August 1, 2006 ACS Green Chemistry Institute Pharmaceutical Roundtable Membership is open to all pharmaceutical research, development, and manufacturing companies. The Roundtable will be strongest when all global pharmaceutical corporations are members.

  3. Strategic Priorities • Mission To catalyze the implementation of green chemistry and engineering in the pharmaceutical industry globally. • Strategic Priorities • Informing and Influencing the Research Agenda • Tools for Innovation • Education Resource • Global Collaboration

  4. Inform and Influence the Research Agenda • Identify commonly used reactions in Pharmaceutical Manufacturing • Commonly used reactions • Aspirational chemical transformations • Inform research community, encourage funding agencies • Selectively fund key research areas

  5. Reactions we use now but would prefer better reagents • Frequency of use • Waste assessment • Process hazard assessment AZ GSK Merck Pfizer Key Challenges in Pharma Manufacturing Lilly Brainstorm Ideas Schering-Plough Prioritise by company vote Aspirational Reaction list

  6. Green Mitsunobu Reactions Reduction of amides avoiding LAH and Diborane Bromination Reactions Sulfonation reactions Amide Formation avoiding poor atom economy reagents Nitration reactions F/C Reactions on unactivated substrates Demethylation Reactions Ester Hydrolysis OH activation for nucleophillic substitution Epoxidation Oxidation Wittig Chemistry without (Ph3PO) Radical Chemistry without Bu3SnH Solventless Reactor Cleaning Polar Aprotic replacements for NMP, DMSO, DMAc, DMF etc Asymmetric Hydrocyanation Aldehyde or Ketone + NH3 + “X” to give a chiral amine N-Centred chemistry avoiding azides hydrazines etc Asymmetric Hydrolysis of nitriles Asymmetric Hydrogenation of unfunctionalised olefins/enamines/imines Asymmetric Hydroformylation C-H activation of aromatics C-H activation of alkyl groups New Green Fluorination Methods Oxygen Nucleophiles with high reactivity Green sources of electrophilic Nitrogen Asymmetric Hydroamination of olefins Asymmetric Hydration of olefins Organocatalysis ROH + ArCl to give ROAr Brainstorm Output

  7. Key Message Lot of commonality between the voting of the GCIrt companies

  8. Prioritization Process aAnalysis of the Reactions used for the Preparation of Drug Candidate Molecules. Carey, J.S., Laffan, D., Thomson, C., Williams, M.T. Org. Biomol. Chem., 2006, 4, (12), 2337-2347

  9. Reactions that GCI companies use now but would strongly prefer better reagents • Amide formation avoiding poor atom economy reagents • OH activation for nucleophilic substitution • Reduction of amides without hydride reagents • Oxidation/Epoxidation methods without the use of chlorinated solvents • Safe and environmentally friendly Mitsunobu reactions • Friedel-Craft reactions on unactivated systems • Nitrations - 6 votes - 5 votes - 4 votes - 4 votes - 3 votes - 2 votes - 2 votes

  10. Reactions that GCI companies use now but would strongly prefer better reagents • Amide formation avoiding poor atom economy reagents • OH activation for nucleophilic substitution • Reduction of amides without hydride reagents • Oxidation/Epoxidation methods without the use of chlorinated solvents • Safe and environmentally friendly Mitsunobu reactions • Friedel-Craft reactions on unactivated systems • Nitrations - 6 votes - 5 votes - 4 votes - 4 votes - 3 votes - 2 votes - 2 votes

  11. More Aspirational Reactions • C-H activation of aromatics (cross couplings avoiding the preparation of haloaromatics) • Aldehyde or ketone + NH3 + ‘X’ to give chiral amine • Asymmetric hydrogenation of unfunctionalised olefins/enamines/imines • New green Fluorination methods under mild conditions • N-Centred chemistry avoiding azides, hydrazine etc • Asymmetric hydroamination • Green sources of electrophilic nitrogen (not TsN3, nitroso or diimide) • Asymmetric hydrocyanation - 6 votes - 4 votes - 4 votes - 4 votes - 4 votes - 2 votes - 2 votes - 2 votes

  12. More Aspirational Reactions • C-H activation of aromatics (cross couplings avoiding the preparation of haloaromatics) • Aldehyde or ketone + NH3 + ‘X’ to give chiral amine • Asymmetric hydrogenation of unfunctionalised olefins/enamines/imines • New green Fluorination methods under mild conditions • N-Centred chemistry avoiding azides, hydrazine etc • Asymmetric hydroamination • Green sources of electrophilic nitrogen (not TsN3, nitroso or diimide) • Asymmetric hydrocyanation - 6 votes - 4 votes - 4 votes - 4 votes - 4 votes - 2 votes - 2 votes - 2 votes

  13. Key Challenges • Current Reactions • Amide Formation, OH activation, Amide Reduction, Green Mitsunobu reactions, Oxidation/Epoxidations • More Aspirational Reactions • C-H activation or aromatics, chiral amine synthesis, Asymmetric Hydrogenation, Green Fluorination Methods, N-Centred Chemistry • Key Ideas outside the Reaction theme • Solvent less Reactor Cleaning • Green alternatives to polar aprotic solvents

  14. Questions for Discussion • Are there anymore key research areas that did not come up in our brainstorm ? • Is anyone working (or know of people working) on the key chemistry challenges ? • Any good ideas to solve some of these problems ? • What are the best funding opportunities ? • How do we best tap into them ? • These projects are tough and challenging. How do we entice researchers to focus their efforts on these problems ?

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