Late-Stage C(sp2)–C(sp3) Diversification via Nickel Oxidative Addition Complexes

Herein, we describe nickel oxidative addition complexes (Ni-OACs) of drug-like molecules as a platform to rapidly generate lead candidates with enhanced C(sp3) fraction. The potential of Ni-OACs to access new chemical space has been assessed not only in C(sp2)–C(sp3) couplings but also in additional bond formations without recourse to specialized ligands and with improved generality when compared to Ni-catalyzed reactions. The development of an automated diversification process further illustrates the robustness of Ni-OACs, thus offering a new gateway to expedite the design–make–test–analyze (DMTA) cycle in drug discovery.

Document Type

Article

Accepted version

Language

English

CDU Subject

54 - Química

Subject

Química

Pages

8 p.

Publisher

ACS Publications

Grant Agreement Number

ICIQ Foundation

MCIN (FEDER/MCIN PID2021-123801NB-I00 & MCIN/AEI Severo Ochoa Excellence Accreditation 2002-2023, CEX2019-000925-S)

C. O. thanks AEI for a predoctoral fellowship (PRE2019-089145)

N. C. -B, sincerely thanks Universidad Nacional Abierta y a Distancia (UNAD) for a postdoctoral fellowship (PG 1301ECBTI2022)

R. T. M. is grateful to the NSERC CGS-D Scholarship and NSERC MSFSS of Canada

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