The complex interaction of cells with biomaterials (ie, materiobiology) plays an increasingly
pivotal role in the development of novel implants, biomedical devices, and tissue …

Thorough understanding of how to control cell behaviors including cell adhesion,
orientation, migration and differentiation on an artificial surface is critical in materials and life …

Dip-pen nanolithography (DPN) is a nanofabrication technique that can be used to directly
write molecular patterns on substrates with high resolution and registration. Over the past …

Patterned polymer thin films are essential components in many devices and applications
owing to the multi-functionality, flexibility, lightweight and cost-efficiency. Unfortunately …

The preparation of high-precision nanostructures is an advanced technology in the scientific
community and has very important application prospects. This paper first reviews the current …

Single-cell patterning technology has revealed significant contributions of single cells to
conduct basic and applied biological studies in vitro such as the understanding of basic cell …

The continuous progress of printing technologies over the past 20 years has fueled the
development of a plethora of applications in materials sciences, flexible electronics, and …

The work reported here demonstrates an approach to the fabrication of chemically reactive
and topographically patterned hydrogels using the azlactone‐functionalized polymer poly (2 …

Micropatterning is a sophisticated technique that precisely manipulates the spatial
distribution of cell adhesion proteins on various substrates across multiple scales. This …

Thermoresponsive water‐soluble polymers are of great importance since they typically show
a lower critical solution temperature (LCST) in aqueous media. In this research, the LCST …