Photoactuated*Ionogel*Microvalves*for Water*Quality ...Photoactuated*Ionogel*Microvalves*for...
Transcript of Photoactuated*Ionogel*Microvalves*for Water*Quality ...Photoactuated*Ionogel*Microvalves*for...
Photoactuated Ionogel Microvalves forWater Quality on-‐Chip Analysis
Monika CzugalaDr. F. Benito-‐Lopez, Prof. Dermot Diamond
Dublin City University, Ireland
Monday 17 September 12
Research Objectives• Integration of actuators developed in Task 3.7 into a microfluidic platform:
-biomimetic structures with detectors -fluidic manifolds-integral reagent addition and calibration standards -integral electronics-communications and power generation/storage
• Demonstration of fully functioning analytical platform.
• pH and turbidity - indicate that corrective action and investigation is required before it becomes a potential risk
- associated with outbreaks of Cryptosporidium (Carlow in 2006 and Galway City in 2007)
• nitrite - in public health terms is essential as prolonged exposure can lead to a potential health risk
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Photo-responsive micro-valves• Photoswitchable materials - the use of non-contact, non invasive stimuli.
• Ionogels containing spiropyran moieties with photochromism properties.
• Protonated spiropyran ionogels exhibit a drastic swelling effect.
• Shrinking process of the ionogels happen upon white light irradiation.
PDMSPDMS
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Linear dimension change - 44%
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Nitrite detection micro-fluidic device
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Emitter
540 nm
Detector
660 nmWhite
LED for Valve
actuationMicrochip
Microcontroller board
Battery
Wireless RadioChip Cradle
(in house design)
Nitrite detection system
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Nitrite detection system
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Chip Cradle (in house design)
Microchip
Battery
Wireless Radio
Microcontroller board
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Method validation (off chip)
Concentration range of NO2: 0.0 - 1.2
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Method validation (off chip)
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Centrifugal Disc System
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2
35
4
- Low cost single use microfluidic device.
- Multiple samples analysis in a single microfluidic device.
- Multiplexing capabilities (pH, turbidity, nitrite,...).
- Portable system: sample analysis at the point of care.
- Wireless communication system.
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Training & Outreach
• Lab-on-a-Chip European Congress, 27-28 March 2012, Edinburgh, Scotland (POSTER)• 6th International Conference on Environmental Science and Technology 2012, which
will be held in June 25-29, Texas, USA (ORAL)• MicroTAS, The 16th International Conference on Miniaturized Systems for Chemistry and Life
Sciences, 31 Oct- 3 Nov 2012, Okinawa, Japan
Anticipated conferences
• MicroTAS, The 15th International Conference on Miniaturized Systems for Chemistry and Life Sciences, 2-6 Oct 2011, Seattle, USA (ORAL)
• Marie Curie Researchers Symposium, SCIENCE – Passion, Mission, Responsibilities, Polish Presidency of the EU Council 25-27 Sept 2011, Warsaw, Poland (POSTER)
• SPIE-2011, Nanoscience + Engineering, 21 - 25 August, 2011, San Diego, California, USA, (INVITED TALK)
Conferences
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Training & OutreachPublications
• Short course: Lab-on-a-chip technologies for applications in the life sciences, Transducers 2011 Conference,5-9 June 2011, Beijing, China.
• Short course: Microfluidics: Device Science and Technology; Transducers 2011 Conference, 5-9 June 2011, Beijing, China.
• Workshop: “Sensing: Changing the way we live our lives”, DCU, 21 Nov 2011, Dublin, Ireland• Cambridge Certificate in Advanced English English Course
Personal Developement
• The Key to Revolutionary Breakthroughs in Micro-fluidic Devices, Proceedings SPIE 8107, 81070C, 2011; doi:10.1117/12.895330 (REVIEW PAPER)
• Integrating Stimulus-Responsive Materials and Microfluidics – The Key to Next Generation Chemical Sensors, JIMMS (in preparation)
• Novel optical sensing system based on wireless paired emitter detector diode device for Lab-on-a-Disc water quality measurements, Lab Chip (in preparation)
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Acknowledgments
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• Cormac Fay & Damien Maher
• Adaptive Sensors Group, Dublin City University
• Marie Curie Initial Training Network funded by the EC FP7 People Program
• Science Foundation of Ireland under grant 07/CE/I1147
Dr. FernandoBenito-Lopez
Prof. Dermot Diamond
Monday 17 September 12