Traditional hydrogel design and optimization methods usually rely on repeated experiments,
which is time-consuming and expensive, resulting in a slow-moving of advanced hydrogel …

The utilization of extracellular vesicles (EVs) in wound healing has been well-documented.
However, the direct administration of free EVs via subcutaneous injection at wound sites …

Brain organoids hold great potential for modeling human brain development and
pathogenesis. They recapitulate certain aspects of the transcriptional trajectory, cellular …

Hydrogel flexible sensors are widely used in wearable devices, health care, intelligent
robots and other fields due to their excellent flexibility, biocompatibility and high sensitivity …

The prevalence of diabetes has been increasing globally, necessitating innovative
approaches beyond conventional blood sugar monitoring and insulin control. Diabetes is …

This study focuses on potential applications of two-dimensional (2D) materials in renewable
energy research. Additionally, we briefly discuss other implementations of 2D materials in …

Abstract The Droplet Microarray (DMA) has emerged as a tool for high-throughput biological
and chemical applications by enabling miniaturization and parallelization of experimental …

The inverse design of tailored organic molecules for specific optoelectronic devices of high
complexity holds an enormous potential, but has not yet been realized1, 2. The complexity …

Engineered enzymes with enhanced or novel functions are specific catalysts with wide-
ranging applications in industry and medicine. Here, we introduce Droplet Array Microfluidic …

The automated biological labs stand out because of the complexities and meanings in the
life science. The biological labs require a strict protocol of the experiment, and many …