Add to ORKGMicrofluidic systems have become one of the most interesting fields in the research of chemical analysis. Miniaturized systems exhibit numerous practical advantages when compared with traditional batch-scale synthesis such as lower sample volumes, increased control of the reactions and higher sample throughput. This thesis describes the development and applications of a parallel channel microreactor in porous silicon. The microreactor is fabricated by anisotropic etching in -silicon and subsequently made porous by anodising in an HF electrolyte. In various designs the microreactor has been used in different miniaturized analysis systems. Both as an enzyme reactor with immobilised trypsin for protein digestion in a miniaturized sample handli...
In this thesis the results of a study into the feasibility of silicon-technology based microreactors...
The paper focuses on the fact that, since the flow rate in parallel channels relies strongly on the ...
Imagine if you could combine the power and capabilities ofan entire laboratory in the palm of your h...
The catalytic performance of porous silicon (PS) micro enzyme reactors (muIMER) is strongly dependen...
The development of a miniaturised silicon wafer integrated enzyme reactor is described. The reactor ...
Multi-scale lithography and cryogenic deep reactive ion etching techniques were used to create ensem...
International audienceIn this work, we present a novel fabrication process that enables the monolith...
The rapid developments within the life science and biotechnology areas put up ever-new demands on mo...
Microphysiometers are biosensor devices that measure the metabolic rate of living cells by detecting...
There is a need for streamlining certain laboratory techniques in synthetic chemistry for the discov...
Enzyme kinetics were obtained in a porous silicon microfluidic channel by combining an enzyme and su...
Nowadays, microreactors are finding increasing application in many fields, from the chemical industr...
Abstract—Electrochemically formed porous silicon (PS) can be released from the bulk silicon substrat...
Mesoporous materials with engineered surface properties are of interest for molecular separations, c...
This paper presents a miniaturized bioreactor (bioreactor-on-a-chip) applied to baker's yeast fermen...
In this thesis the results of a study into the feasibility of silicon-technology based microreactors...
The paper focuses on the fact that, since the flow rate in parallel channels relies strongly on the ...
Imagine if you could combine the power and capabilities ofan entire laboratory in the palm of your h...
The catalytic performance of porous silicon (PS) micro enzyme reactors (muIMER) is strongly dependen...
The development of a miniaturised silicon wafer integrated enzyme reactor is described. The reactor ...
Multi-scale lithography and cryogenic deep reactive ion etching techniques were used to create ensem...
International audienceIn this work, we present a novel fabrication process that enables the monolith...
The rapid developments within the life science and biotechnology areas put up ever-new demands on mo...
Microphysiometers are biosensor devices that measure the metabolic rate of living cells by detecting...
There is a need for streamlining certain laboratory techniques in synthetic chemistry for the discov...
Enzyme kinetics were obtained in a porous silicon microfluidic channel by combining an enzyme and su...
Nowadays, microreactors are finding increasing application in many fields, from the chemical industr...
Abstract—Electrochemically formed porous silicon (PS) can be released from the bulk silicon substrat...
Mesoporous materials with engineered surface properties are of interest for molecular separations, c...
This paper presents a miniaturized bioreactor (bioreactor-on-a-chip) applied to baker's yeast fermen...
In this thesis the results of a study into the feasibility of silicon-technology based microreactors...
The paper focuses on the fact that, since the flow rate in parallel channels relies strongly on the ...
Imagine if you could combine the power and capabilities ofan entire laboratory in the palm of your h...