Dynamic and reversible non‐covalent interactions endow synthetic systems and materials
with smart adaptive functions that allow them to response to diverse stimuli, interact with …

Conspectus The design and fabrication of synthetic self-assembled systems that can mimic
some biological features require exquisitely sophisticated components that make use of …

In this feature article, targeted design strategies are outlined for modified adenine
nucleobase derivatives in order to construct metal-mediated discrete complexes, ring …

Nature's use of a simple genetic code to enable life's complex functions is an inspiration for
supramolecular chemistry. DNA nucleobases carry the key information utilizing a variety of …

The naturally occurring nucleic acid bases (nucleobases) adenine, thymine (uracil),
guanine, and cytosine are widely appreciated for their ability to stabilize canonical Watson …

Non-Watson–Crick base pairing provides an in situ approach for actuation of DNA
nanostructures through responses to solution conditions. Here we demonstrate this concept …

Nucleotides are essential components of DNA and RNA, and their functions depend mainly
on the participation of metal ions. Thus, research into nucleotide–metal coordination …

Functionalized base-pairs: versatile scaffolds for self-assembly - Chemical Communications
(RSC Publishing) DOI:10.1039/B418526A Royal Society of Chemistry View PDF VersionPrevious …

An ongoing challenge in the construction of supramolecular systems is controlling the
relative geometry of functional redox species for molecular electronics devices, including …

The powerful self-assembly features of DNA make it a unique template to finely organize
and control matter on the nanometre scale. While DNA alone offers a high degree of fidelity …