Aymen Ben Azouz scite author profile

Light--responsive hydrogel valves with enhanced response characteristics compatible with microfluidics have been obtained by optimization of molecular design of spiropyran photoswitches and gel composition. Self--protonating gel formulations were exploited, wherein acrylic acid was copolymerized in the hydrogel network as an internal proton do--nor, to achieve a swollen state of the hydrogel in water at neutral pH. Light--responsive properties were endowed upon the hydrogels by copolymerization of spiropyran chromophores, using electron withdrawing and donating groups to tune the gel--swelling rate. Faster macroscopic swelling of the hydrogels was obtained by changing an ester to an ether at the 6' position (factor of 4) or shifting the ether group to the 8' position of the spiropyran (factor of 2.5) producing a 10 fold increase in total. The effect was also visible in the swelling behavior of the corresponding hydrogel valves, where the ob--served macroscopic changes were reversible and reproducible and in agreement with the molecular kinetics. Gel--valves integrated within microfluidic channels have been fabricated and allow reversible and repeatable operation, with opening of the valve effected in 1 minute, while closing takes around 5.5 minutes.

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Advances in three-dimensional rapid prototyping of microfluidic devices for biological applications

O'Neill

Azouz

Vázquez

et al. 2014

129

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The capability of 3D printing technologies for direct production of complex 3D structures in a single step has recently attracted an ever increasing interest within the field of microfluidics. Recently, ultrafast lasers have also allowed developing new methods for production of internal microfluidic channels within the bulk of glass and polymer materials by direct internal 3D laser writing. This review critically summarizes the latest advances in the production of microfluidic 3D structures by using 3D printing technologies and direct internal 3D laser writing fabrication methods. Current applications of these rapid prototyped microfluidic platforms in biology will be also discussed. These include imaging of cells and living organisms, electrochemical detection of viruses and neurotransmitters, and studies in drug transport and induced-release of adenosine triphosphate from erythrocytes. V C 2014 AIP Publishing LLC. [http://dx

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Tuning microfluidic flow by pulsed light oscillating spiropyran-based polymer hydrogel valves

Coleman

Schiphorst²,

Azouz

et al. 2017

Sensors and Actuators B: Chemical

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Fast Fabrication Process of Microfluidic Devices Based on Cyclic Olefin Copolymer

Azouz

Murphy

Karazi

et al. 2014

Materials and Manufacturing Processes

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A new low-cost process for fast fabrication of multilayer microfluidic devices using cyclic olefin copolymer film materials is presented. This novel process consists of the fabrication of microfluidic features by xurography, followed by multilayer lamination via cyclohexane vapor exposure. Exposure time to this solvent and compression time were optimized for bond tensile strength. A three-layer microfluidic chip capable of withstanding back pressures up to 23 MPa was fabricated in less than an hour. The suitability of this fast prototyping method for fabrication of functional UV-transparent microfluidic devices was demonstrated by development and testing of a microfluidic mixer and preparation of a polymer monolithic column within the microfluidic channel.

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Development of a teat sensing system for robotic milking by combining thermal imaging and stereovision technique

Azouz

Esmonde

Corcoran

et al. 2015

Computers and Electronics in Agriculture

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Aymen Ben Azouz

Molecular Design of Light-Responsive Hydrogels, For in Situ Generation of Fast and Reversible Valves for Microfluidic Applications

Advances in three-dimensional rapid prototyping of microfluidic devices for biological applications

Tuning microfluidic flow by pulsed light oscillating spiropyran-based polymer hydrogel valves

Fast Fabrication Process of Microfluidic Devices Based on Cyclic Olefin Copolymer

Development of a teat sensing system for robotic milking by combining thermal imaging and stereovision technique

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