Diverse Approaches for the Difunctionalization of PPH Dendrimers, Precise Versus Stochastic : How Does this Influence Catalytic Performance?

Massimo Petriccone, Régis Laurent, Anne-Marie Caminade, Rosa Maria Sebastián Pérez

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Resum

Random difunctionalization of dendrimer surfaces, frequently employed in biological applications, provides the advantage of dual functional groups through a synthetic pathway that is simpler compared to precise difunctionalization. However, is the random difunctionalization as efficient as the precise difunctionalization on the surface of dendrimers? This question is unanswered to date because most dendrimer families face challenges in achieving precise functionalization. Polyphosphorhydrazone (PPH) dendrimers present a unique opportunity to obtain precise difunctionalization at each terminal branching point. The work concerning catalysis we report with PPH dendrimers, whether precisely or randomly functionalized, addresses this question. Across PPH dendrimers, from generations 1 to 3, precise functionalization consistently outperforms random functionalization in terms of efficiency. This finding introduces a novel concept in dendrimer science, emphasizing the superiority of precise over random functionalization methodologies. Introducing a groundbreaking concept in the field of dendrimers.
Idioma originalEnglish
Pàgines (de-a)853-858
Nombre de pàgines6
RevistaACS Macro Letters
Volum13
Número7
DOIs
Estat de la publicacióPublicada - 25 de juny 2024

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