Molecular assembly offers a promising strategy to construct active systems by using
biomolecules as building blocks. Such assembled systems simulate or regulate important …

A rich variety of smart materials developed via supramolecular assembly strategies have
been introduced in the past decades. However, most materials reside in the thermodynamic …

Adenosine triphosphate (ATP) is a central metabolite that plays an indispensable role in
various cellular processes, from energy supply to cell‐to‐cell signaling. Nature has …

Adenosine triphosphate (ATP) is a molecular unit of energy that drives various processes in
the cellular environment. In this Minireview, we discuss the potential of physical and …

Fuel‐driven self‐assembly widely exists in the biological world since functional micro‐or
nanostructures in living bodies are usually transiently formed by biomolecular self‐assembly …

Here, we exploit a small biomolecule–ATP–to gain temporal control over chemical reactivity
in a synthetic system composed of small self-assembling molecules and reactants. The …

Dissipative self-assembly is exploited by nature to control important biological functions,
such as cell division, motility and signal transduction. The ability to construct synthetic …

Adenosine triphosphate (ATP), known as a common metabolic product in organism, is not
only importance to provide energy in various cellular activities but also is widely explored in …

Precise control over interparticle interactions is essential to retain the functions of individual
components in a self‐assembled superstructure. Here, we report the design of a …

Recent years have witnessed a growing interest in the design of enzyme-responsive
molecular assemblies that hold appealing applications in the fields of disease-related …