grant

Iodine Catalyzed Cross-Coupling Reactions

Organization QUEENS COLLEGELocation FLUSHING, UNITED STATESPosted 15 Jun 2022Deadline 31 May 2027
NIHUS FederalResearch GrantFY2025AldehydesAmidesAminesCarbonCatalysisChemicalsChemistryCouplingCyclizationDataDevelopmentDrugsEducationEducational aspectsEnsureEnvironmentFriendsFundingFutureGeneralized GrowthGenerationsGoalsGroup 17 ElementsGrowthHalogensImidesInvestigationIodineK elementKetonesMediatingMedicationMedicinal ChemistryMedicineMethodologyMethodsModernizationNitrogenO elementO2 elementOrganic ChemistryOxygenPharmaceutic ChemistryPharmaceutical ChemistryPharmaceutical PreparationsPotassiumPreparationProtocolProtocols documentationPyrrolesReactionResearchResearch InfrastructureS elementSTEM classSTEM courseSTEM disciplineSTEM fieldSTEM majorScientistSolidStudentsStyrenesSulfurSynthesis ChemistrySynthetic ChemistrySystemTissue GrowthTransition ElementsVisible LightVisible Light RadiationVisible RadiationWorkadductaminecareercatalystchemical bondcollegecollegiatedevelopmentaldrug/agentenolexperiencefunctional groupimprovedinnovateinnovationinnovativeinterestnew drug treatmentsnew drugsnew pharmacological therapeuticnew therapeuticsnew therapynext generation therapeuticsnovel drug treatmentsnovel drugsnovel pharmaco-therapeuticnovel pharmacological therapeuticnovel therapeuticsnovel therapyontogenypreparationsscience, technology, engineering and math classscience, technology, engineering and math coursescience, technology, engineering and math disciplinescience, technology, engineering and math fieldscience, technology, engineering and math majorscience, technology, engineering and mathematics classscience, technology, engineering and mathematics coursescience, technology, engineering and mathematics disciplinescience, technology, engineering and mathematics fieldscience, technology, engineering and mathematics majortoxic metaltransition metalundergradundergraduateundergraduate studentuser-friendly
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Full Description

Project Summary – Iodine Catalyzed Cross-Coupling Reactions
The proposed research aims to discover and develop economical, environmentally- and user-friendly iodine catalyzed cross-coupling reactions for the synthesis of key chemical bonds (carbon-nitrogen and carbon- carbon bonds), functional groups (amides, imides and ketones) and frameworks (nitrogen-containing heterocycles such as pyrrole). Despite the great interest and efforts devoted in cross-coupling reactions, examples of iodine catalyzed cross-coupling still remain scarce compared to the number of protocols mediated by transition metal catalysts. The proposal is grounded in our preliminary results that acyl radical species are readily generated from aldehyde substrates in the presence of an iodine/potassium persulfate catalyst system, which participate in coupling reactions with a variety of chemical compounds containing nitrogen nucleophiles. Upon the completion of the proposed work, three specific aims will be accomplished: 1) a facile iodine catalyzed carbon-nitrogen bond formation protocol for the preparation of amides and imides will be developed; 2) an iodine catalyzed carbon-carbon bond formation reaction via radical addition mechanism will be developed; 3) a carbon-carbon bond formation reaction via an iodine and first-row late transition metal co- catalyzed cross-coupling mechanism will be developed. The new methods are expected to serve the critical needs of synthetic and medicinal chemists in preparation of the corresponding chemical bonds and frameworks for novel therapeutics. A thorough investigation of the proposed iodine catalysis mechanism will be conducted, which is expected to yield a comprehensive understanding of the proposed iodine catalysis and serve as a template for future study in the field. In addition, the proposal will improve and strengthen the infrastructure of research and education at Queens College. It will not only provide research opportunities to the many students among the Queens College undergraduates, but also will help nurture the young generation of scientists who are interested in pursuing a research career in the STEM disciplines.

Grant Number: 5SC3GM144160-04
NIH Institute/Center: NIH
Principal Investigator: Yu Chen

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Iodine Catalyzed Cross-Coupling Reactions — QUEENS COLLEGE | UNITED STATES | Jun 2022 | Dev Procure