Add to ORKGIn this contribution a micro liquid dosing system is presented, which allows bi-directional manipulation of fluids (i.e. pushing out and pulling in of liquids) by the electrochemical generation and removal of gas bubbles. Bi-directionality is obtained by reversal of the actuation current thereby causing the earlier produced gasses to react back to water. This reduction of gas volume actively pulls liquid back into the system. The electrochemical actuator electrodes have been specially designed to perform the simultaneous measurement of conductivity, via which the total amount of gas can be estimated. As this amount equals the total dosed volume of liquid, dispensed volumes can be determined on-line during experiment
Accurate liquid flow control is important in most chemical analyses. In this work, measurement of li...
The manipulation of liquids within a microcapillary network remains a considerable challenge in the...
Injection Medical Devices are more and more developed. New devices bring innovations in terms of per...
A system for the dosing of nanoliter amounts of fluids is presented. It is based on the displacement...
An integrated micro-liquid dosing system consisting of a micro-pump and a micro-liquid flow sensor i...
In this paper an investigation of the feasibility of a new electrochemical micro actuator is present...
The paper presents two different approaches of utilizing electrolytic micro actuation in liquid envi...
A new dissolved oxygen monitoring microsystem is proposed to achieve in situ intelligent self-calibr...
AbstractThis work concerns the development of a novel actuator based on water electrolysis for use i...
Electrokinetic phenomena, motion caused by an applied electric field, can be used to separate molecu...
A microfluidic system was constructed by integrating on-chip micropumps and check valves that functi...
Most of the biochemical sensors exhibit instabilities such as baseline drift and sensitivity degrada...
This paper reports the construction of a mathematical model for the process of dosing liquid foods (...
This paper reports the construction of a mathematical model for the process of dosing liquid foods (...
Dissolved oxygen sensors are extensively used in many fields of industrial processes, medical diagno...
Accurate liquid flow control is important in most chemical analyses. In this work, measurement of li...
The manipulation of liquids within a microcapillary network remains a considerable challenge in the...
Injection Medical Devices are more and more developed. New devices bring innovations in terms of per...
A system for the dosing of nanoliter amounts of fluids is presented. It is based on the displacement...
An integrated micro-liquid dosing system consisting of a micro-pump and a micro-liquid flow sensor i...
In this paper an investigation of the feasibility of a new electrochemical micro actuator is present...
The paper presents two different approaches of utilizing electrolytic micro actuation in liquid envi...
A new dissolved oxygen monitoring microsystem is proposed to achieve in situ intelligent self-calibr...
AbstractThis work concerns the development of a novel actuator based on water electrolysis for use i...
Electrokinetic phenomena, motion caused by an applied electric field, can be used to separate molecu...
A microfluidic system was constructed by integrating on-chip micropumps and check valves that functi...
Most of the biochemical sensors exhibit instabilities such as baseline drift and sensitivity degrada...
This paper reports the construction of a mathematical model for the process of dosing liquid foods (...
This paper reports the construction of a mathematical model for the process of dosing liquid foods (...
Dissolved oxygen sensors are extensively used in many fields of industrial processes, medical diagno...
Accurate liquid flow control is important in most chemical analyses. In this work, measurement of li...
The manipulation of liquids within a microcapillary network remains a considerable challenge in the...
Injection Medical Devices are more and more developed. New devices bring innovations in terms of per...