David Glueck (@glueckd) 's Twitter Profile
David Glueck

@glueckd

Dartmouth College chemistry professor

ID: 236424335

linkhttps://glueck.host.dartmouth.edu/ calendar_today10-01-2011 15:20:11

282 Tweet

491 Followers

628 Following

Organometallics (@orgmet_acs) 's Twitter Profile Photo

Rh-catalyzed asymmetric dehydrocoupling makes P–P bonds with mistake correction, converting the undesired meso diastereomer to C2. Find out how – new from @sarah_chachula David Glueck @dartmouthchem pubs.acs.org/doi/10.1021/ac…

Rh-catalyzed asymmetric dehydrocoupling makes P–P bonds with mistake correction, converting the undesired meso diastereomer to C2. Find out how – new from @sarah_chachula <a href="/glueckd/">David Glueck</a> @dartmouthchem pubs.acs.org/doi/10.1021/ac…
David Glueck (@glueckd) 's Twitter Profile Photo

Featuring hydroformylation catalysis, synthesis, X-ray, DFT, and high-pressure NMR. Thanks to Dartmouth and Dow coauthors and Arnie for crystallography

David Glueck (@glueckd) 's Twitter Profile Photo

Double feature in one issue of Organometallics -- our two latest papers on catalysis with precious metals and unusual phosphines! Pt(PMe2OH)-catalyzed nitrile hydration and Rh(phosphirane)-catalyzed hydroformylation doi.org/10.1021/acs.or… doi.org/10.1021/acs.or…

Organometallics (@orgmet_acs) 's Twitter Profile Photo

A new route to P-stereogenic phosphines: Rh-catalyzed asymmetric C-H activation in dehydrocoupling-cyclophosphination. See the latest by @sarah_chachula, Russ Hughes, and David Glueck (Dartmouth Chemistry) in Organometallics go.acs.org/bcw

David Glueck (@glueckd) 's Twitter Profile Photo

Post-Baccalaureate Fellow in Chemistry, Dartmouth College, with David Glueck 1-year research program in synthetic chemistry/catalysis, starts July 1, 2025. $55,000 salary+health benefits Review begins March 20, 2025: apply.interfolio.com/163897 Questions? [email protected]

David Glueck (@glueckd) 's Twitter Profile Photo

New review article! Transition metal complexes with C-stereogenic alkyl ligands and P-stereogenic analogues: synthesis, configurational stability, stereochemistry of fundamental transformations, and intermediacy in catalysis authors.elsevier.com/a/1l7E6EsKWdfTO

New review article! 
Transition metal complexes with C-stereogenic alkyl ligands and P-stereogenic analogues: synthesis, configurational stability, stereochemistry of fundamental transformations, and intermediacy in catalysis authors.elsevier.com/a/1l7E6EsKWdfTO