Functional π-gelators and their applications
Supramolecular chemistry originally defined by Lehn as “chemistry beyond molecules”
exploits noncovalent interactions between molecules to form 1D, 2D, and 3D …
exploits noncovalent interactions between molecules to form 1D, 2D, and 3D …
Main-group-based electro-and photoactive chiral materials
F Pop, N Zigon, N Avarvari - Chemical reviews, 2019 - ACS Publications
This Review discusses the structure–property relationships in chiral molecules,
macromolecules (polymers), and supramolecules (crystals, liquid crystals, or thin films) …
macromolecules (polymers), and supramolecules (crystals, liquid crystals, or thin films) …
Self‐assembled gelators for organic electronics
Nature excels at engineering materials by using the principles of chemical synthesis and
molecular self‐assembly with the help of noncovalent forces. Learning from these …
molecular self‐assembly with the help of noncovalent forces. Learning from these …
Tuning the columnar organization of discotic polycyclic aromatic hydrocarbons
The control of the intracolumnar organization of disc‐shaped polycyclic aromatic
hydrocarbons has essential influence on material's properties including thermotropic …
hydrocarbons has essential influence on material's properties including thermotropic …
Supramolecular hydrogels and high‐aspect‐ratio nanofibers through charge‐transfer‐induced alternate coassembly
Gelling together: The alternate coassembly of a noncovalent donor–acceptor (D–A)
amphiphilic pair in water results in very long nanofibers that form hydrogels (see scheme) …
amphiphilic pair in water results in very long nanofibers that form hydrogels (see scheme) …
Advances in Supramolecular Electronics–From Randomly Self‐assembled Nanostructures to Addressable Self‐Organized Interconnects
E Moulin, JJ Cid, N Giuseppone - Advanced Materials, 2013 - Wiley Online Library
Supramolecular organic electronics rests on the use of bottom‐up chemical self‐assembly
processes in order to design conducting components on the 5–100 nm scale. The …
processes in order to design conducting components on the 5–100 nm scale. The …
Hierarchical Chiral Expression from the Nano- to Mesoscale in Synthetic Supramolecular Helical Fibers of a Nonamphiphilic C3-Symmetrical π-Functional Molecule
The controlled preparation of chiral structures is a contemporary challenge for
supramolecular science because of the interesting properties that can arise from the …
supramolecular science because of the interesting properties that can arise from the …
Conducting supramolecular nanofibers and nanorods
M Hasegawa, M Iyoda - Chemical Society Reviews, 2010 - pubs.rsc.org
Recent progress in the study of electroconducting nanomaterials such as nanofibers,
nanorods and other nanostructures based on the supramolecular self-assembly of …
nanorods and other nanostructures based on the supramolecular self-assembly of …
Supramolecular charge transfer nanostructures
Supramolecular organization of π-conjugated chromophores into well defined
nanostructures has gained much attention due to their promising role as active components …
nanostructures has gained much attention due to their promising role as active components …
Conducting nanofibers and organogels derived from the self-assembly of tetrathiafulvalene-appended dipeptides
We demonstrate the nonaqueous self-assembly of a low-molecular-mass organic gelator
based on an electroactive p-type tetrathiafulvalene (TTF)–dipeptide bioconjugate. We show …
based on an electroactive p-type tetrathiafulvalene (TTF)–dipeptide bioconjugate. We show …