This paper presents a multi-functional operational diagnostic lab-on-foil analysis system integrating electrical and optical devices by polytronic means. This functional polymer-opto-electronic module is completely integrated on a foil substrate, where an electroluminescent light source has been hetero-integrated together with an organic thin-film field-effect transistor (OTFT), working as a photodetector. This module is combined with a microfluidic channel also machined in plastics to form an optical detection system for analysis of fluids. The different components are fabricated on a PEN film substrate with coating and patterning steps, resulting in direct integration of the different functionalities without any assembly steps. Therefore ...
Next generation of smart systems in different application areas such as automotive, medical and cons...
A hybrid silicon-poly(dimethysiloxane) (PDMS) optofluidic platform for lab-on-a-chip applications is...
The next major challenges for lab-on-a-chip (LoC) technology are 1) the integration of microfluidics...
In this paper, we report on a novel device that addresses the needs for an efficient, field deployab...
This thesis focusses on the establishment of a technological process chain for prototyping of electr...
International audienceThe concept of microfluidics on foil opens up new opportunities for combining ...
International audienceAdvantages of having a flexible substrate with reel-to-reel processing, which ...
Embedding of optoelectrical, optical, and electrical functionalities into low-cost products like pro...
The concept of microfluidics on foil opens up new opportunities for combining the advantages of havi...
Current trends in the development of electronics systems show that the provision of thin flexible co...
AbstractPyroelectric sensors presented in this work are based on polymers from the PVDF family which...
Flexible microfluidic devices made of poly(dimethylsiloxane) (PDMS) were manufactured by soft lithog...
Constant need for saving space and energy has led to the miniaturization of electronic devices and t...
Optical detection is one of the most common methods of detection in microfluidic systems[1]. An opti...
In this paper, we present a functional integrated plastic system. We have fabricated arrays of organ...
Next generation of smart systems in different application areas such as automotive, medical and cons...
A hybrid silicon-poly(dimethysiloxane) (PDMS) optofluidic platform for lab-on-a-chip applications is...
The next major challenges for lab-on-a-chip (LoC) technology are 1) the integration of microfluidics...
In this paper, we report on a novel device that addresses the needs for an efficient, field deployab...
This thesis focusses on the establishment of a technological process chain for prototyping of electr...
International audienceThe concept of microfluidics on foil opens up new opportunities for combining ...
International audienceAdvantages of having a flexible substrate with reel-to-reel processing, which ...
Embedding of optoelectrical, optical, and electrical functionalities into low-cost products like pro...
The concept of microfluidics on foil opens up new opportunities for combining the advantages of havi...
Current trends in the development of electronics systems show that the provision of thin flexible co...
AbstractPyroelectric sensors presented in this work are based on polymers from the PVDF family which...
Flexible microfluidic devices made of poly(dimethylsiloxane) (PDMS) were manufactured by soft lithog...
Constant need for saving space and energy has led to the miniaturization of electronic devices and t...
Optical detection is one of the most common methods of detection in microfluidic systems[1]. An opti...
In this paper, we present a functional integrated plastic system. We have fabricated arrays of organ...
Next generation of smart systems in different application areas such as automotive, medical and cons...
A hybrid silicon-poly(dimethysiloxane) (PDMS) optofluidic platform for lab-on-a-chip applications is...
The next major challenges for lab-on-a-chip (LoC) technology are 1) the integration of microfluidics...