Recent advances in microscale electroporation
Electroporation (EP) is a commonly used strategy to increase cell permeability for
intracellular cargo delivery or irreversible cell membrane disruption using electric fields. In …
intracellular cargo delivery or irreversible cell membrane disruption using electric fields. In …
Microfluidics and hydrogel: A powerful combination
Microfluidics is a very useful and promising technology that allowed engineering a huge
variety of developments in several fields, such as biology, biomedical engineering …
variety of developments in several fields, such as biology, biomedical engineering …
Recent Advances in Microfluidic Platforms for Programming Cell‐Based Living Materials
P Zhang, N Shao, L Qin - Advanced Materials, 2021 - Wiley Online Library
Cell‐based living materials, including single cells, cell‐laden fibers, cell sheets, organoids,
and organs, have attracted intensive interests owing to their widespread applications in …
and organs, have attracted intensive interests owing to their widespread applications in …
Recent advances in microfluidic-based electroporation techniques for cell membranes
F Wang, S Lin, Z Yu, Y Wang, D Zhang, C Cao… - Lab on a Chip, 2022 - pubs.rsc.org
Electroporation is a fundamental technique for applications in biotechnology. To date, the
ongoing research on cell membrane electroporation has explored its mechanism, principles …
ongoing research on cell membrane electroporation has explored its mechanism, principles …
Single-cell transfection technologies for cell therapies and gene editing
Advances in gene editing and cell therapies have recently led to outstanding clinical
successes. However, the lack of a cost-effective manufacturing process prevents the …
successes. However, the lack of a cost-effective manufacturing process prevents the …
Organic functional substance engineered living materials for biomedical applications
Modifying living materials with organic functional substances (OFS) is a convenient and
effective strategy to control and monitor the transport, engraftment, and secretion processes …
effective strategy to control and monitor the transport, engraftment, and secretion processes …
Efficient electroporation in primary cells with PEDOT: PSS electrodes
AA Gharia, CJ Bradfield, EPW Jenkins, IDC Fraser… - Science …, 2024 - science.org
Precise and efficient delivery of macromolecules into cells enhances basic biology research
and therapeutic applications in cell therapies, drug delivery, and personalized medicine …
and therapeutic applications in cell therapies, drug delivery, and personalized medicine …
Capillarity Enabled Large‐Array Liquid Metal Electrodes for Compact and High‐Throughput Dielectrophoretic Microfluidics
Dielectrophoresis (DEP) particle separation has label‐free, well‐controllable, and low‐
damage merits. Sidewall microelectrodes made of liquid metal alloy (LMA) inherits the …
damage merits. Sidewall microelectrodes made of liquid metal alloy (LMA) inherits the …
Development of an electrically responsive hydrogel for programmable in situ immobilization within a microfluidic device
I Plazl - Soft Matter, 2021 - pubs.rsc.org
A novel microfluidic channel device with programmable in situ formation of a hydrogel 3D
network was designed. A biocompatible hybrid material consisting of iron ion-crosslinked …
network was designed. A biocompatible hybrid material consisting of iron ion-crosslinked …
3D-printing enabled micro-assembly of a microfluidic electroporation system for 3D tissue engineering
Electro-transfection is an essential workhorse tool for regulating cellular responses and
engineering cellular materials in tissue engineering. However, most of the existing …
engineering cellular materials in tissue engineering. However, most of the existing …