The rational design of drug delivery approaches leveraging supramolecular chemistry
(ie,“chemistry beyond the molecule”) has garnered significant interest in recent years toward …

Bone has well documented natural healing capacity that normally is sufficient to repair
fractures and other common injuries. However, the properties of bone change throughout …

The communication of cells with their surroundings is mostly encoded in the epitopes of
structural and signalling proteins present in the extracellular matrix (ECM). These peptide …

Supramolecular assembly of peptide-based monomers into nanostructures offers many
promising applications in advanced therapies. In this Tutorial Review, we introduce …

Angiogenesis plays a critical role within the human body, from the early stages of life (ie,
embryonic development) to life-threatening diseases (eg, cancer, heart attack, stroke, wound …

Biomedical applications of nanomaterials are exponentially increasing every year due to
analogy to various cell receptors, ligands, structural proteins, and genetic materials (that is …

Self‐assembly is a ubiquitous process in biology where it plays numerous important roles
and underlies the formation of a wide variety of complex biological structures. Over the past …

Bone tissue engineering is becoming an ideal strategy to replace autologous bone grafts for
surgical bone repair, but the multihierarchical complexity of natural bone is still difficult to …

Heparin plays an important role in many biological processes via its interaction with various
proteins, and hydrogels and nanoparticles comprising heparin exhibit attractive properties …

Mimicking the native extracellular matrix (ECM) as a cell culture scaffold has long attracted
scientists from the perspective of supramolecular chemistry for potential application in …