Add to ORKGABSTRACT: A simple, robust, and cost-effective method is developed to fabricate nanofibrous micropatterns particularly microposts and microwells of controlled shapes. The key to this method is the use of an easily micropatternable and intrinsically conductive metal alloy as a template to collect electrospun fibers. The micropatterned alloy allows conformal fiber deposition with high fidelity on its topographical features and in situ formation of diverse, free-standing micropatterned nanofibrous membranes. Interestingly, these membranes can serve as structural frames to form robust hydrogel micropatterns that may otherwise be fragile on their own. These hybrid micropatterns represent a new platform for cell encapsulation where the nanofiber ...
Nano/microfibrous polymeric constructs present various inherent advantages, such as highly porous ar...
This paper describes the development of multi-functional nanofiber scaffolds consisting of multiple ...
Development of artificial scaffolds for tissue engineering is a key area of research in the regenera...
A simple, robust, and cost-effective method is developed to fabricate nanofibrous micropatterns part...
Fabrication of biomimetic tissues holds much promise for the regeneration of cells or organs that ar...
Fabrication of biomimetic tissues holds much promise for the regeneration of cells or organs that ar...
Although the microfabrication techniques for microwells enabled to guide physiologically relevant th...
Building two-dimensional (2D) and three-dimensional (3D) fibrous structures in the micro- and nanosc...
Lab-grown tissues have tremendous potential to accelerate drug discovery and identify some of the un...
As the population gets older, the demands for new medical treatments increase since many of our most...
Building two-dimensional (2D) and three-dimensional (3D) fibrous structures in the micro- and nanosc...
To fully exploit the potential of hydrogel micro-fibers in the design of regenerative medicinal mate...
Nano/microfibrous polymeric constructs present various inherent advantages, such as highly porous ar...
This paper describes the development of multi-functional nanofiber scaffolds consisting of multiple ...
Development of artificial scaffolds for tissue engineering is a key area of research in the regenera...
A simple, robust, and cost-effective method is developed to fabricate nanofibrous micropatterns part...
Fabrication of biomimetic tissues holds much promise for the regeneration of cells or organs that ar...
Fabrication of biomimetic tissues holds much promise for the regeneration of cells or organs that ar...
Although the microfabrication techniques for microwells enabled to guide physiologically relevant th...
Building two-dimensional (2D) and three-dimensional (3D) fibrous structures in the micro- and nanosc...
Lab-grown tissues have tremendous potential to accelerate drug discovery and identify some of the un...
As the population gets older, the demands for new medical treatments increase since many of our most...
Building two-dimensional (2D) and three-dimensional (3D) fibrous structures in the micro- and nanosc...
To fully exploit the potential of hydrogel micro-fibers in the design of regenerative medicinal mate...
Nano/microfibrous polymeric constructs present various inherent advantages, such as highly porous ar...
This paper describes the development of multi-functional nanofiber scaffolds consisting of multiple ...
Development of artificial scaffolds for tissue engineering is a key area of research in the regenera...
