This Minireview presents sophisticated interfacial materials nanoarchitectonics for cell
regulation as controls of advanced bio‐systems. In the nanoarchitectonics procedures …

Vertically aligned nanomaterials, such as nanowires and nanoneedles, hold strong potential
as efficient platforms onto which living cells or tissues can be interfaced for use in advanced …

Various recent experimental observations indicate that growing cells on engineered
materials can alter their physiology, function, and fate. This finding suggests that better …

In living systems, interfacial molecular interactions control many biological processes. New
stimuli‐responsive strategies are desired to provide versatile model systems that can …

Imitating the physiological microenvironment of living cell and tissues opens new avenues of
research into the application of electricity to medical therapies. In this study, dynamic …

Organ-on-a-chip technology has gained great interest in recent years given its ability to
control the spatio-temporal microenvironments of cells and tissues precisely. While physical …

Transplantation of tissue-engineered neural scaffolds bears great potential for
reconstructing neural circuits after spinal cord injury (SCI). In this study, a 3D porous silk …

Microenvironmental factors play critical roles in regulating stem cell fate, providing a
rationale to engineer biomimetic microenvironments that facilitate rapid and effective stem …