Modifying living materials with organic functional substances (OFS) is a convenient and
effective strategy to control and monitor the transport, engraftment, and secretion processes …

The physical energy activated techniques for cellular delivery and analysis is one of the
most rapidly expanding research areas for a variety of biological and biomedical …

Single-cell patterning technologies are rapidly evolving, where single cells are positioned in
spatially distinct areas, thus providing a platform for several biological and biomedical …

Highly efficient intracellular delivery strategies are essential for developing therapeutic,
diagnostic, biological, and various biomedical applications. The recent advancement of …

Cell transfer printing plays an essential role in biomedical research and clinical diagnostics.
Traditional bioadhesion-based methods often necessitate complex surface modifications …

Efficient and convenient delivery of exogenous molecules into cells is important for cell
biology research. However, many intracellular delivery methods require carrier-mediated or …

Microalgae that have recently captivated interest worldwide are a great source of renewable,
sustainable and economical biofuels. The extensive potential application in the renewable …

Nanosecond pulsed laser induced photoporation has gained increasing attention from
scholars as an effective method for delivering the membrane-impermeable extracellular …

The physiology and pathogenesis of biological cells have drawn enormous research
interest. Benefiting from the rapid development of microfabrication and microelectronics …

Intracellular delivery, the process of transporting substances into cells, is crucial for various
applications, such as drug delivery, gene therapy, cell imaging, and regenerative medicine …