An Accelerated Modular-Orthogonal Ni-Catalyzed Methodology to Symmetric and Nonsymmetric Constitutional Isomeric AB₂ to AB₉ Dendrons Exhibiting Unprecedented Self-Organizing Principles

Abstract: Five libraries of natural and synthetic phenolic acids containing five AB3, ten constitutional isomeric AB2, one AB4, and one AB5 were previously synthesized and reported by our laboratory in 5 to 11 steps. They were employed to construct seven libraries of self-assembling dendrons, by divergent generational, deconstruction, and combined approaches, enabling the discovery of a diversity of supramolecular assemblies including Frank–Kasper phases, soft quasicrystals, and complex helical organizations, some under… Show more

“…The pendant hydroxyl group(s) on Cage-1 and -2 was introduced for solubility and easy solution processibility. As the molecular packing of supramolecular structures and their functions are determined by the self-assembling synthons, − we reasoned that the self-assembly of the two cages would yield two different supramolecular proton conductors with distinct intermolecular channels, which might alter the proton conduction behaviors of the encapsulated proton carriers.…”

Supramolecular Proton Conductors Self-Assembled by Organic Cages

“…The pendant hydroxyl group(s) on Cage-1 and -2 was introduced for solubility and easy solution processibility. As the molecular packing of supramolecular structures and their functions are determined by the self-assembling synthons, − we reasoned that the self-assembly of the two cages would yield two different supramolecular proton conductors with distinct intermolecular channels, which might alter the proton conduction behaviors of the encapsulated proton carriers.…”

Supramolecular Proton Conductors Self-Assembled by Organic Cages

“…A few polyphenols and the three most commonly used plant phenolic acids employed in our laboratory are outlined in Figure . Thirty new symmetric and nonsymmetric phenolic acids were synthesized from the compounds illustrated in Figure . − This was possible only after Pd was replaced with the more reactive but less expensive Ni in the borylation and cross-coupling catalytic cycles. − The transition from Pd to Ni started in 1995 in our laboratory, ,− continued with the development of more reactive and more stable sigma Ni complexes, the mixed-ligand concept, and other strategies that are part of previous large review articles. , Therefore, only the most recent accomplishments are cited here. ,, Thio-bromo “click” − and other click reactions also had an important impact as synthetic methodologies employed with phenolic acids or with other renewable reagents. However, the discovery of the mixed-ligand and catalytic effect of solvent in single-electron transfer living radical polymerization (SET-LRP). ,,− has not yet impacted at the same level the field of self-organizable helical columnar and spherical helical dendronized polymers.…”

From Frank–Kasper, Quasicrystals, and Biological Membrane Mimics to Reprogramming In Vivo the Living Factory to Target the Delivery of mRNA with One-Component Amphiphilic Janus Dendrimers

“…[1][2][3] The major structural characteristics of dendritic macromolecules include their monodispersity, nonlinear topology and multivalency, which make a big difference compared to conventional polydisperse polymers in assemblies and their assembled morphology control. 3 Non-linear topological structures from dendritic macromolecules afford the molecular segments different packing parameters, resulting in abundant ordered phases in bulk 2,[4][5][6] or in solutions. 7,8 Multivalency from dendritic macro-molecules is important in manipulating the assembly, especially when associations play pivotal roles in controlling morphologies of the assemblies.…”

Supramolecular assembly of dendronized spiropyrans in aqueous solutions into nanospheres with photo- and thermo-responsive chiralities