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Microfluidic platforms with bioinspired functionalities: new concepts for future devices

Diamond, Dermot orcid logoORCID: 0000-0003-2944-4839, Shinde, Akshay, Donohoe, Andrew, Barret, Ruairi and McCaul, Margaret (2019) Microfluidic platforms with bioinspired functionalities: new concepts for future devices. In: SelectBIO “Lab-on-a-Chip & Microfluidics Europe 2019 Congress, 18-19 June 2019, Rotterdam, The Netherlands.

Abstract
Through developments in fabrication technologies in recent years, it is now possible to build and characterize much more sophisticated 3D platforms than was formerly the case. Regions of differing polarity, binding behaviour, flexibility/rigidity can now be incorporated into these fluidic systems. Furthermore, materials that can switch these characteristics can be incorporated, enabling the creation of microfluidic building blocks that exhibit switchable characteristics such as programmed microvehicle movement (chemotaxis), switchable binding and release, switchable soft polymer actuation (e.g. valving), and selective uptake and release of molecular targets. These building blocks can be in turn integrated into microfluidic systems with hitherto unsurpassed functionalities that can contribute to bridging the gap between what is required and what science can currently deliver for many challenging applications. Recent developments now enable complex 3D arrangements of soft, switchable polymer gel structures to be created with sub-micron feature size resolution, opening completely new possibilities for control of the chemistry of liquid-solid system. This emerging transition from existing engineering-inspired 2D to bioinspired 3D fluidic concepts appears to represent a major turning point in the evolution of microfluidics. For example, implementation of these disruptive concepts may open the way to realising biochemical sensing systems with performance characteristics far beyond those of current devices.
Metadata
Item Type:Conference or Workshop Item (Invited Talk)
Event Type:Conference
Refereed:Yes
Subjects:Biological Sciences > Biosensors
Humanities > Biological Sciences > Biosensors
Biological Sciences > Microfluidics
Humanities > Biological Sciences > Microfluidics
Engineering > Materials
Physical Sciences > Analytical chemistry
Physical Sciences > Photochemistry
DCU Faculties and Centres:DCU Faculties and Schools > Faculty of Science and Health > School of Chemical Sciences
Research Institutes and Centres > National Centre for Sensor Research (NCSR)
Research Institutes and Centres > INSIGHT Centre for Data Analytics
Copyright Information:© 2019 The Authors
Use License:This item is licensed under a Creative Commons Attribution-NonCommercial-Share Alike 3.0 License. View License
Funders:EU H2020, Science Foundation Ireland, Enterprise Ireland
ID Code:23469
Deposited On:25 Jun 2019 14:30 by Dermot Diamond . Last Modified 12 Aug 2020 16:06
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