In this paper, we develop a strategy to form on-demand droplets with specific pH values. The pH control is based on electrolysis of water in microfluidics, and the produced hydrogen and hydroxyl ions are separated and confined in individual containers during the droplet generation, triggered by a pressure pulse. By tuning the applied voltages and pressure pulses, we can control on demand the pH value in a droplet
Microfluidic aliquot dispensing technologies have been utilized in many chemical or biological high ...
166 p.As an emerging technique, Droplet Microfluidics has attracted great research and development i...
Digital microfluidic two-phase flow systems have achieved an impressive degree of flexibility and ve...
In this paper, we propose a strategy to form on-demand droplets with specific pH values. We analyzed...
Droplet-based protocols in microfluidic devices have found numerous applications in such different a...
Liquid metal co-injected with electrolyte through a microfluidic flow-focusing orifice forms droplet...
Real-time pH control on-chip is a crucial factor for cell-based experiments in microfluidics, yet di...
The electrochemical management of the proton concentration in miniaturized dimensions opens the way ...
We discuss a microfluidic system in which (programmable) local electric fields originating from embe...
Motivated by the desire to analyze individual cells, the objective of this research is the design, f...
Scale reduction of chemical reactions enables novel screening and synthesis approaches that facilita...
We combine image processing and feedback controls to regulate droplet movements. A general modelling...
Controlling locally produced acidity in miniaturized spaces is of high importance yielding to manage...
143 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2001.In the last part of the thesi...
Controlling locally produced acidity in miniaturized spaces is of high importance to manage simultan...
Microfluidic aliquot dispensing technologies have been utilized in many chemical or biological high ...
166 p.As an emerging technique, Droplet Microfluidics has attracted great research and development i...
Digital microfluidic two-phase flow systems have achieved an impressive degree of flexibility and ve...
In this paper, we propose a strategy to form on-demand droplets with specific pH values. We analyzed...
Droplet-based protocols in microfluidic devices have found numerous applications in such different a...
Liquid metal co-injected with electrolyte through a microfluidic flow-focusing orifice forms droplet...
Real-time pH control on-chip is a crucial factor for cell-based experiments in microfluidics, yet di...
The electrochemical management of the proton concentration in miniaturized dimensions opens the way ...
We discuss a microfluidic system in which (programmable) local electric fields originating from embe...
Motivated by the desire to analyze individual cells, the objective of this research is the design, f...
Scale reduction of chemical reactions enables novel screening and synthesis approaches that facilita...
We combine image processing and feedback controls to regulate droplet movements. A general modelling...
Controlling locally produced acidity in miniaturized spaces is of high importance yielding to manage...
143 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2001.In the last part of the thesi...
Controlling locally produced acidity in miniaturized spaces is of high importance to manage simultan...
Microfluidic aliquot dispensing technologies have been utilized in many chemical or biological high ...
166 p.As an emerging technique, Droplet Microfluidics has attracted great research and development i...
Digital microfluidic two-phase flow systems have achieved an impressive degree of flexibility and ve...
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