Reggie Mills
@reggiemills28
Assistant Professor of Chemistry, University of Houston; former postdoc @ChirikGroup; Ph.D. 2020 from U. of Toronto with @RousseauxGroup
ID: 1106162612805533696
14-03-2019 11:58:13
1,1K Tweet
704 Followers
626 Following
Continuing its mission to find new reactivities with first-row transition metals, the Chirik Group releases a landmark study on the mechanism of Co-catalyzed C(sp2)-C(sp3) cross coupling in J. Am. Chem. Soc. this week. Congrats Reggie, Paul and @BMSNews. Story: bit.ly/3Ow9FxF
Out now in ā¦Angewandte Chemie !!!ā© (FTz)āCobalt(II) Precatalysts for C(sp2)āC(sp3) Bond Formation! Congratulations to ā¦Reggie Millsā©, Francesca, & collaborators at BMS! ā¦Princeton Chemistryā© Bristol Myers Squibbā© ā¦ā© onlinelibrary.wiley.com/doi/10.1002/anā¦
I would have never thought to put S in our ligand, but turns out phenoxythiazoline (FTz) is really good for cobalt-catalyzed Suzuki cross-coupling! See our work on (FTz)Co precatalysts for TLR7/8 antagonist synthesis Chirik Group Steve Wisniewski Bristol Myers Squibb onlinelibrary.wiley.com/doi/10.1002/anā¦
Phenoxythiazoline (FTz)-Cobalt(II) Precatalysts Enable C(sp2)-C(sp3) Bond-Formation for Key Intermediates in the Synthesis of Toll-like Receptor 7/8 Antagonists (Paul J. Chirik and co-workers) Chirik Group Princeton Chemistry Bristol Myers Squibb onlinelibrary.wiley.com/doi/10.1002/anā¦
Great cake š Great hair šāāļø Great company Chirik Group
UH Chemistry UH Chemistry of UH College of Natural Sciences and Mathematics is excited to announce Dr. Reggie Mills' joining the department faculty starting in Fall 2024! His research will explore the use of first row transition-metal catalysis for organic synthesis. Welcome to University of Houston!
(Phenoxyimine)Ni-Cat. C(sp2)āC(sp3) SuzukiāMiyaura Cross-Coupling: Evidence of a Recovering Radical Chain Mechanism | Journal of the American Chemical Society Princeton University Paul Chirik Chirik Group Princeton Chemistry #Ni #SuzukiMiyaura #CrossCoupling #Radical #Chain pubs.acs.org/doi/10.1021/jaā¦
Just out in Organometallics We demonstrate that (FI)cobalt(III) dimethyl compounds undergo CāC reductive elimination at elevated temperature - providing important insight into bond formation with (FI)cobalt Chirik Group Paul Chirik Steve Wisniewski pubs.acs.org/doi/10.1021/acā¦