Reaction-diffusion (RD) processes are common throughout nature, which uses them routinely to build and control structures on length scales from molecular to macroscopic. At the same time, despite a long history of scientific research and a significant level of understanding of the basic aspects of RD, reaction-diffusion has remained an unrealized technological opportunity. This review suggests that RD systems can provide a versatile basis for applications in micro- and nanotechnology. Straightforward experimental methods are described that allow precise control of RD processes in complex microgeometries and enable fabrication of small-scale structures, devices, and functional systems. Uses of RD in sensory applications are also discussed
This PhD work is devoted to developing an experimental framework to investigate chemical spatiotempo...
Scientific literature dealing with the rates, mechanisms,and thermodynamic properties of chemical re...
Diffusion is a natural phenomenon and essential in many fields. Conceptually, diffusion in solid mat...
We introduce novel analog devices that emulate a model of chemical systems in nature, called a react...
In biological systems, the coupling of nonlinear biochemical kinetics and molecular transport enable...
All known forms of life utilise information processing to maintain their complex organisation. In co...
Reaction-diffusion (RD) processes initiated from the surfaces of mesoscopic particles can fabricate ...
Microfabrication techniques are increasingly used in di!erent "elds of chemistry to realize str...
Chemical reactions make cells work only if the participating chemicals are delivered to desired loca...
In his seminal 1952 paper, Alan Turing predicted that diffusion could spontaneously drive an initial...
Journal ArticleTuring introduced reaction diffusion systems (RD-systems) as a mechanism which made p...
The purpose of this work is the development of novel silicon devices that imitate the lively, dynami...
Reaction-Diffusion (RD) equations were first proposed in 1952 by Alan Turing to model biological gro...
Microstructure is a critical element of many synthetic materials including materials for separations...
Controlled diffusion, reaction and assembly of hydrogelator precursors can be used to create soft hy...
This PhD work is devoted to developing an experimental framework to investigate chemical spatiotempo...
Scientific literature dealing with the rates, mechanisms,and thermodynamic properties of chemical re...
Diffusion is a natural phenomenon and essential in many fields. Conceptually, diffusion in solid mat...
We introduce novel analog devices that emulate a model of chemical systems in nature, called a react...
In biological systems, the coupling of nonlinear biochemical kinetics and molecular transport enable...
All known forms of life utilise information processing to maintain their complex organisation. In co...
Reaction-diffusion (RD) processes initiated from the surfaces of mesoscopic particles can fabricate ...
Microfabrication techniques are increasingly used in di!erent "elds of chemistry to realize str...
Chemical reactions make cells work only if the participating chemicals are delivered to desired loca...
In his seminal 1952 paper, Alan Turing predicted that diffusion could spontaneously drive an initial...
Journal ArticleTuring introduced reaction diffusion systems (RD-systems) as a mechanism which made p...
The purpose of this work is the development of novel silicon devices that imitate the lively, dynami...
Reaction-Diffusion (RD) equations were first proposed in 1952 by Alan Turing to model biological gro...
Microstructure is a critical element of many synthetic materials including materials for separations...
Controlled diffusion, reaction and assembly of hydrogelator precursors can be used to create soft hy...
This PhD work is devoted to developing an experimental framework to investigate chemical spatiotempo...
Scientific literature dealing with the rates, mechanisms,and thermodynamic properties of chemical re...
Diffusion is a natural phenomenon and essential in many fields. Conceptually, diffusion in solid mat...