Donald A. Tomalia scite author profile

ABSTRACT:This paper describes the first synthesis of a new class of topological macromolecules which we refer to as "starburst polymers." The fundamental building blocks to this new polymer class are referred to as "dendrimers." These dendrimers differ from classical monomers/ oligomers by their extraordinary symmetry, high branching and maximized (telechelic) terminal functionality density. The dendrimers possess "reactive end groups" which allow (a) controlled moelcular weight building (monodispersity), (b) controlled branching (topology), and (c) versatility in design and modification of the terminal end groups. Dendrimer synthesis is accomplished by a variety of strategies involving "time sequenced propagation" techniques. The resulting dendrimers grow in a geometrically progressive fashion as shown: Chemically bridging these dendrimers leads to the new class of macromolecules-"starburst polymers" (e.g.,

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Starburst Dendrimers: Molecular‐Level Control of Size, Shape, Surface Chemistry, Topology, and Flexibility from Atoms to Macroscopic Matter

Tomalia

Naylor

Goddard

1990

Angew. Chem. Int. Ed. Engl.

3,217

2,345

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In memoriam Piero PinoStarburst dendrimers are three-dimensional, highly ordered oligomeric and polymeric compounds formed by reiterative reaction sequences starting from smaller molecules-"initiator cores" such as ammonia or pentaerythritol. Protecting group strategies are crucial in these syntheses, which proceed via discrete "Aufbau" stages referred to as generations. Critical molecular design parameters (CMDPs) such as size, shape, and surface chemistry may be controlled by the reactions and synthetic building blocks used. Starburst dendrimers can mimic certain properties of micelles and liposomes and even those of biomolecules and the still more complicated, but highly organized, building blocks of biological systems. Numerous applications of these compounds are conceivable, particularly in mimicking the functions of large biomolecules as drug carriers and immunogens. This new branch of "supramolecular chemistry" should spark new developments in both organic and macromolecular chemistry.

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Poly(amidoamine) (PAMAM) dendrimers: from biomimicry to drug delivery and biomedical applications

Esfand

Tomalia²

2001

Drug Discovery Today

1,473

1,101

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Dendrimers in biomedical applications—reflections on the field

Svenson¹,

Tomalia²

2005

Advanced Drug Delivery Reviews

1,650

991

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Birth of a new macromolecular architecture: dendrimers as quantized building blocks for nanoscale synthetic polymer chemistry

Tomalia

2005

Progress in Polymer Science

1,021

743

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Donald A. Tomalia

A New Class of Polymers: Starburst-Dendritic Macromolecules

Starburst Dendrimers: Molecular‐Level Control of Size, Shape, Surface Chemistry, Topology, and Flexibility from Atoms to Macroscopic Matter

Poly(amidoamine) (PAMAM) dendrimers: from biomimicry to drug delivery and biomedical applications

Dendrimers in biomedical applications—reflections on the field

Birth of a new macromolecular architecture: dendrimers as quantized building blocks for nanoscale synthetic polymer chemistry

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