Add to ORKGConducting polymer devices that enable precise control of fibronectin conformation over macroscopic areas are reported. Single conformations as well as conformation gradients are achieved by applying an appropriate potential. These surfaces remain biologically relevant and support cell culture; hence, they may serve as a model to understand and control cell-surface interactions, with applications in basic research, medical diagnostics, and tissue engineering. Copyright © 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
Surface modifications of materials are used to monitor and evaluate cellular function for several de...
Surfaces with controlled micro and nanoscale topographical cues are useful as smart scaffolds and bi...
Surfaces with controlled micro and nanoscale topographical cues are useful as smart scaffolds and bi...
Organic bioelectronics is a growing interdisciplinary research field that seeks to integrate organic...
We describe a conducting polymer device that can induce electrically controlled density gradients of...
We report the fabrication of three dimensional (3D) macroporous scaffolds made from poly(3,4-ethylen...
Conducting polymers are soft, flexible materials, exhibiting material properties that can be reversi...
In this review, we provide insight into protein interactions with organic conducting polymers, a cla...
Being able to control and understand cell functions at will is a valuable tool in cell biology and o...
One of the main goals of bioelectronics research is to develop an understanding of the interface bet...
In complex organisms, cells are often dependent on their extracellular matrix (ECM) for structural i...
In complex organisms, cells are often dependent on their extracellular matrix (ECM) for structural i...
Since the first contact and fusion of an egg and sperm and throughout development, a cell lives a li...
Since the first contact and fusion of an egg and sperm and throughout development, a cell lives a li...
Cell membranes are integral to the functioning of the cell and are therefore key to drive fundamenta...
Surface modifications of materials are used to monitor and evaluate cellular function for several de...
Surfaces with controlled micro and nanoscale topographical cues are useful as smart scaffolds and bi...
Surfaces with controlled micro and nanoscale topographical cues are useful as smart scaffolds and bi...
Organic bioelectronics is a growing interdisciplinary research field that seeks to integrate organic...
We describe a conducting polymer device that can induce electrically controlled density gradients of...
We report the fabrication of three dimensional (3D) macroporous scaffolds made from poly(3,4-ethylen...
Conducting polymers are soft, flexible materials, exhibiting material properties that can be reversi...
In this review, we provide insight into protein interactions with organic conducting polymers, a cla...
Being able to control and understand cell functions at will is a valuable tool in cell biology and o...
One of the main goals of bioelectronics research is to develop an understanding of the interface bet...
In complex organisms, cells are often dependent on their extracellular matrix (ECM) for structural i...
In complex organisms, cells are often dependent on their extracellular matrix (ECM) for structural i...
Since the first contact and fusion of an egg and sperm and throughout development, a cell lives a li...
Since the first contact and fusion of an egg and sperm and throughout development, a cell lives a li...
Cell membranes are integral to the functioning of the cell and are therefore key to drive fundamenta...
Surface modifications of materials are used to monitor and evaluate cellular function for several de...
Surfaces with controlled micro and nanoscale topographical cues are useful as smart scaffolds and bi...
Surfaces with controlled micro and nanoscale topographical cues are useful as smart scaffolds and bi...