Homogeneous catalyst containing Pd in the reduction of aryl azides to primary amines | SpringerLink
Bioorthogonal strategies for the in vivo synthesis or release of drugs - ScienceDirect
PDF) Transition metal catalysts for the bioorthogonal synthesis of bioactive agents
Bioorthogonal Uncaging of the Active Metabolite of Irinotecan by Palladium‐Functionalized Microdevices - Adam - 2018 - Chemistry – A European Journal - Wiley Online Library
Extracellular palladium-catalysed dealkylation of 5-fluoro-1-propargyl-uracil as a bioorthogonally activated prodrug approach | Nature Communications
Bioorthogonal strategies for the in vivo synthesis or release of drugs - ScienceDirect
Transition metal mediated bioorthogonal release - ScienceDirect
Exporting Homogeneous Transition Metal Catalysts to Biological Habitats - Seoane - 2022 - European Journal of Organic Chemistry - Wiley Online Library
Bioorthogonal Palladium-Labile Prodrugs for Site-Specific Anticancer Therapy Video | LabTube
Transition metal catalysts for the bioorthogonal synthesis of bioactive agents - ScienceDirect
Core-Shell Palladium/MOF Platforms as Diffusion-Controlled Nanoreactors in Living Cells and Tissue Models - ScienceDirect
Nondestructive production of exosomes loaded with ultrathin palladium nanosheets for targeted bio-orthogonal catalysis | Exosome RNA
Intracellular Deprotection Reactions Mediated by Palladium Complexes Equipped with Designed Phosphine Ligands | ACS Catalysis
Exosomes for cell-targeted bioorthogonal catalysis | Nature Catalysis
Transition metal catalysts for the bioorthogonal synthesis of bioactive agents - ScienceDirect
Palladium-loaded PLGA-chitosan NPs as efficient catalysts for bioorthogonal chemistry
A thioether-directed palladium-cleavable linker for targeted bioorthogonal drug decaging - Chemical Science (RSC Publishing) DOI:10.1039/C8SC00256H
Bioorthogonal Uncaging of the Active Metabolite of Irinotecan by Palladium‐Functionalized Microdevices - Adam - 2018 - Chemistry – A European Journal - Wiley Online Library
Designed heterogeneous palladium catalysts for reversible light-controlled bioorthogonal catalysis in living cells | Nature Communications
The bioorthogonal revolution | Feature | Chemistry World