We describe an experimental methodology for the study of chemical self-organization in micropatterned reaction systems. Our approach is based on office-printer-assisted soft lithography and allows the fabrication of centimeter-scale devices with reactor units as small as 50 ím. The devices are made from the elastomeric material poly(dimethylsiloxane) and are filled with a modified Belousov-Zhabotinsky solution. This excitable reaction-diffusion medium employs 1,4-cyclohexanedione as a bubble-free organic substrate and Fe(II)-[batho(SO3)2]3 as a high-absorbance redox catalyst/indicator. Chemical wave propagation is affected by the loss of bromine from the aqueous phase into the elastomer matrix. The strength of this activating process depend...
Oscillating chemical reactions, encapsulated within artificial vesicles have been demonstrated as a ...
A large number of human activities rely on conventional computing devices producing huge quantities ...
ABSTRACT: After a polymerizable hydrogelator self-assem-bles in water to form molecular nanofibers, ...
Microfluidics provides a powerful technology for both the production of molecular computing componen...
Hybrid or hierarchical nanomaterials with precisely controlled size, shape, and composition have pot...
Chemical communication leading to synchronization and collective behaviour of dynamic elements, such...
The Belousov-Zhabotinsky (BZ) reaction has become the prototype of nonlinear chemical dynamics. Micr...
In Belousov–Zhabotinsky (BZ) type reactions, chemical oxidation waves can be exploited to produce re...
ABSTRACT: While living systems have developed highly efficient ways to convert chemical energy (e.g....
Excitation and oscillation are central to living systems. For excitable systems, which can be brough...
Microfluidic technologies have been supported by the development of rapid-prototyping techniques tha...
This thesis describes a study of various aspects of chemical reactions conducted in microfluidic rea...
We performed theoretical and computational studies to determine the effect of an applied mechanical ...
We present a laser scanning confocal microscopy (LSCM) and continuous flow microreactor (CFMR)-based...
In this paper we propose an experimental model able to catch the essential features of the propagati...
Oscillating chemical reactions, encapsulated within artificial vesicles have been demonstrated as a ...
A large number of human activities rely on conventional computing devices producing huge quantities ...
ABSTRACT: After a polymerizable hydrogelator self-assem-bles in water to form molecular nanofibers, ...
Microfluidics provides a powerful technology for both the production of molecular computing componen...
Hybrid or hierarchical nanomaterials with precisely controlled size, shape, and composition have pot...
Chemical communication leading to synchronization and collective behaviour of dynamic elements, such...
The Belousov-Zhabotinsky (BZ) reaction has become the prototype of nonlinear chemical dynamics. Micr...
In Belousov–Zhabotinsky (BZ) type reactions, chemical oxidation waves can be exploited to produce re...
ABSTRACT: While living systems have developed highly efficient ways to convert chemical energy (e.g....
Excitation and oscillation are central to living systems. For excitable systems, which can be brough...
Microfluidic technologies have been supported by the development of rapid-prototyping techniques tha...
This thesis describes a study of various aspects of chemical reactions conducted in microfluidic rea...
We performed theoretical and computational studies to determine the effect of an applied mechanical ...
We present a laser scanning confocal microscopy (LSCM) and continuous flow microreactor (CFMR)-based...
In this paper we propose an experimental model able to catch the essential features of the propagati...
Oscillating chemical reactions, encapsulated within artificial vesicles have been demonstrated as a ...
A large number of human activities rely on conventional computing devices producing huge quantities ...
ABSTRACT: After a polymerizable hydrogelator self-assem-bles in water to form molecular nanofibers, ...