Add to ORKGThis review surveys recent developments in the field of electrochemically generated gradients. The gradual variation of properties, which is a key characteristic of gradients, is of eminent importance in technology, for example, directional wetting, as well as biology, for example, chemotaxis. Electrochemical techniques offer many benefits, such as the generation of dynamic solution and surface gradients, integration with electronics, and compatibility with automation. An overview is given of newly developed methods, from purely electrochemical techniques to the combination of electrochemistry with other methods. Electrochemically fabricated gradients are employed extensively for biological and technological applications, such as high-throu...
The ability to generate stable, spatiotemporally controllable concentration gradients is critical fo...
Materials possessing gradients in composition or structure are of interest for a range of applicatio...
The influence of a surface potential gradient on the location and extent of electrochemical reaction...
197 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2002.The thesis is organized into ...
We report a method for the rapid and reversible generation of microscale pH gradients using a spatia...
Chemical gradient surfaces are surfaces with a gradually changing chemistry along their length which...
The work described herein focuses on modulating the electric field within microelectrochemical devic...
AbstractSpatial and temporal in-vivo variation of biochemical signals affects cellular behavior and ...
Gradient surfaces are emerging tools for investigating mammalian cell-surface interactions in high t...
Biological gradients profoundly influence many cellular activities, such as adhesion, migration, and...
The studies on surface chemical gradients are constantly gaining interest both for fundamental studi...
A new method for producing molecular gradients of arbitrary shape in thin three dimensional gels is ...
Microfluidics has been proven to be a valuable tool in the study of biological systems. The possibil...
Wettability gradient surfaces are specific gradients on which surface wettability continuously chang...
We report an electrochemical method for the shape-controlled fabrication of micron-scale surface-bou...
The ability to generate stable, spatiotemporally controllable concentration gradients is critical fo...
Materials possessing gradients in composition or structure are of interest for a range of applicatio...
The influence of a surface potential gradient on the location and extent of electrochemical reaction...
197 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2002.The thesis is organized into ...
We report a method for the rapid and reversible generation of microscale pH gradients using a spatia...
Chemical gradient surfaces are surfaces with a gradually changing chemistry along their length which...
The work described herein focuses on modulating the electric field within microelectrochemical devic...
AbstractSpatial and temporal in-vivo variation of biochemical signals affects cellular behavior and ...
Gradient surfaces are emerging tools for investigating mammalian cell-surface interactions in high t...
Biological gradients profoundly influence many cellular activities, such as adhesion, migration, and...
The studies on surface chemical gradients are constantly gaining interest both for fundamental studi...
A new method for producing molecular gradients of arbitrary shape in thin three dimensional gels is ...
Microfluidics has been proven to be a valuable tool in the study of biological systems. The possibil...
Wettability gradient surfaces are specific gradients on which surface wettability continuously chang...
We report an electrochemical method for the shape-controlled fabrication of micron-scale surface-bou...
The ability to generate stable, spatiotemporally controllable concentration gradients is critical fo...
Materials possessing gradients in composition or structure are of interest for a range of applicatio...
The influence of a surface potential gradient on the location and extent of electrochemical reaction...