Add to ORKGDrop-based microfluidic technology has been attracting great attention since the prevalence of soft-lithography techniques in poly-dimethylsiloxane (PDMS) microfluidic device fabrication a decade ago. The miniaturized isolated confinement of the droplet provides an ideal environment to study single cell behaviors in vitro that might otherwise be buried in the ensemble measurements. The effective confinement of the target and its secretion, together with the high-throughput processing capability, holds the promise for efficient target search through large-scale library screening. In fact, in the past seven years, considerable efforts have been made in developing this platform towards the applications in biology and great advances in drops ha...
We use microfluidic devices to encapsulate, incubate, and manipulate individual cells in picoliter a...
Over the past two decades, the application of microengineered systems in the chemical and biological...
Item does not contain fulltextMiniaturization has been the key driver for many remarkable technologi...
The ability to perform laboratory operations on small scales using miniaturized devices provides num...
Synthetic biology is an interdisciplinary field that aims to engineer biological systems for useful ...
The ability to perform laboratory operations on small scales using miniaturized devices provides num...
Droplet microfluidics is an active multidisciplinary area of research that evolved out of the larger...
Cell factories are cells that have been engineered to produce a compound of interest, ranging from b...
Droplet microfluidics is an emerging technology for analysis of single cells and biomolecules at hig...
Microfluidics combines principles of science and technology, and enables the user to handle, process...
Microfluidic techniques herald the arrival of a new era in biomedical experimentation, where new and...
Droplet microfluidics constitutes a diverse and practical tool set that enables chemical and biologi...
This project involves the complete process of soft lithography for creating lab-on-a-chip devices fo...
Single-cell techniques have become more and more incorporated in cell biological research over the p...
Multicellular organisms, from roundworms to humans, are composed of interacting individual cells tha...
We use microfluidic devices to encapsulate, incubate, and manipulate individual cells in picoliter a...
Over the past two decades, the application of microengineered systems in the chemical and biological...
Item does not contain fulltextMiniaturization has been the key driver for many remarkable technologi...
The ability to perform laboratory operations on small scales using miniaturized devices provides num...
Synthetic biology is an interdisciplinary field that aims to engineer biological systems for useful ...
The ability to perform laboratory operations on small scales using miniaturized devices provides num...
Droplet microfluidics is an active multidisciplinary area of research that evolved out of the larger...
Cell factories are cells that have been engineered to produce a compound of interest, ranging from b...
Droplet microfluidics is an emerging technology for analysis of single cells and biomolecules at hig...
Microfluidics combines principles of science and technology, and enables the user to handle, process...
Microfluidic techniques herald the arrival of a new era in biomedical experimentation, where new and...
Droplet microfluidics constitutes a diverse and practical tool set that enables chemical and biologi...
This project involves the complete process of soft lithography for creating lab-on-a-chip devices fo...
Single-cell techniques have become more and more incorporated in cell biological research over the p...
Multicellular organisms, from roundworms to humans, are composed of interacting individual cells tha...
We use microfluidic devices to encapsulate, incubate, and manipulate individual cells in picoliter a...
Over the past two decades, the application of microengineered systems in the chemical and biological...
Item does not contain fulltextMiniaturization has been the key driver for many remarkable technologi...