In this work, we present an innovative self-powered microfluidic platform that can both push and pull liquids in a programmable way and we demonstrate sequential self-activation of different liquids in a two-step proof-of-a-concept. This microfluidic platform has the potential for implementing complex multistep bio-assays and hence perfectly fits the needs of disposable low cost point-of-care-tests (POCT).status: publishe
AbstractLab-on-a-chip technologies have pervaded various fields of the life sciences including nucle...
Microfluidic devices play an ever increasing role in nano- and biotechnologies. An example of the r...
Microfluidic Lab-on-a-Chip (LOC) devices are a miniaturized alternative to tra-ditional biochemical ...
In this work, we present an innovative self-powered microfluidic platform that can both push and pul...
With the constant world population growth and ageing, several medical conditions are becoming a burd...
We present in this paper a new concept of a self-powered infusion microfluidic pump for lab on a chi...
ing (POCT) will require on-board fluidics, self-con-tained reagents, and multistep reactions, all at...
Microfluidic systems enable rapid diagnosis, screening and monitoring of diseases and health conditi...
The realization of microfluidic platforms with liquid pumping and fluid transport independent on ext...
Rapid diagnostic testing at a patient's location, so-called 'point-of-care' (POC) testing, is essent...
Small volume fluid handling in single and multiphase microfluidics provides a promising strategy for...
Small volume fluid handling in single and multiphase microfluidics provides a promising strategy for...
Biosensor technologies have enormous potential in the field of biomedical diagnostics. Despite this,...
<div><p>Small volume fluid handling in single and multiphase microfluidics provides a promising stra...
The healthcare industry is witnessing a growing demand for portable, field-ready diagnostic platform...
AbstractLab-on-a-chip technologies have pervaded various fields of the life sciences including nucle...
Microfluidic devices play an ever increasing role in nano- and biotechnologies. An example of the r...
Microfluidic Lab-on-a-Chip (LOC) devices are a miniaturized alternative to tra-ditional biochemical ...
In this work, we present an innovative self-powered microfluidic platform that can both push and pul...
With the constant world population growth and ageing, several medical conditions are becoming a burd...
We present in this paper a new concept of a self-powered infusion microfluidic pump for lab on a chi...
ing (POCT) will require on-board fluidics, self-con-tained reagents, and multistep reactions, all at...
Microfluidic systems enable rapid diagnosis, screening and monitoring of diseases and health conditi...
The realization of microfluidic platforms with liquid pumping and fluid transport independent on ext...
Rapid diagnostic testing at a patient's location, so-called 'point-of-care' (POC) testing, is essent...
Small volume fluid handling in single and multiphase microfluidics provides a promising strategy for...
Small volume fluid handling in single and multiphase microfluidics provides a promising strategy for...
Biosensor technologies have enormous potential in the field of biomedical diagnostics. Despite this,...
<div><p>Small volume fluid handling in single and multiphase microfluidics provides a promising stra...
The healthcare industry is witnessing a growing demand for portable, field-ready diagnostic platform...
AbstractLab-on-a-chip technologies have pervaded various fields of the life sciences including nucle...
Microfluidic devices play an ever increasing role in nano- and biotechnologies. An example of the r...
Microfluidic Lab-on-a-Chip (LOC) devices are a miniaturized alternative to tra-ditional biochemical ...
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