SPIROPYRAN MODIFIED PDMS MICRO FLUIDIC CHIP DEVICE

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UNIVERSITY COLLEGE DUBLIN    DUBLIN CITY UNIVERSITY    TYNDALL NATIONAL INSTITUTE  1

SPIROPYRAN MODIFIED SPIROPYRAN MODIFIED PDMS MICROPDMS MICRO‐‐FLUIDIC CHIP DEVICE FLUIDIC CHIP DEVICE 

FOR PHOTONICALLY CONTROLLED FOR PHOTONICALLY CONTROLLED SENSOR ARRAY DETECTIONSENSOR ARRAY DETECTION

OF METAL IONSOF METAL IONS

Fernando Benito‐López

UNIVERSITY COLLEGE DUBLIN    DUBLIN CITY UNIVERSITY    TYNDALL NATIONAL INSTITUTE  2

OOutline• Introduction.

• Acknowledgments.

• Micro‐fluidic device fabrication.

• Experimental set‐up.

• Micro‐fluidic device functionalisation.

• Results and Discussions.

• Conclusions.

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IIntroduction

ADVANTAGES 

• SMALL CHARACTERISTIC DIMENSIONS

• CONTINUOUS FLOW MODE

SMALLER AND PORTABLE  SYSTEMS RELAX  SAFETY  ISSUES,  SAVE COSTS, MATERIALS AND INCREASE PERFORMANCES BY INTEGRATING MINIATURIZED COMPONENTS. 

IMPROVE HEAT AND MASS TRANSFER RATES

MIXING

REAL‐TIME MEASUREMENTSFAST ANALYSIS PROTOCOLS

MICRODEVICE & MICROREACTOR: 

• THREE‐DIMENSIONAL STRUCTURES (MICROCHANNELS) 

• LAMINAR CONTINUOUS FLOW REGIME (Re < 2300)

• DIAMETERS 10 ‐ 500 μM• MANIPULATE REAGENT SOLUTIONS

• FABRICATED: GLASS, QUARTZ, SILICON, POLYMERS, METALS

• SMALL INTERNAL VOLUMES• HIGH SURFACE‐TO‐VOLUME RATIO

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Environmentally friendly disposable sensors with microfabricated on‐chip planar bismuth electrode for in situ heavy metal ions measurement, Zoua, Z., et al. Sens. Actuators B ,134, 2008, 18–24.

IIntroductionMETAL ION SENSOR MICRO‐FLUIDIC DEVICES

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IIntroductionMETAL ION SENSOR MICRO‐FLUIDIC DEVICES

Development of a microchip metal ion sensor using dinitro‐azocalix[4]azacrown, Park J.M. et al. Microchem. J., 80, 2, 2005, 139‐144.

Dinitro‐azocalix[4]azacrown (DAC)

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IIntroductionMETAL ION SENSOR MICRO‐FLUIDIC DEVICES

Fluorescent sensor array in a microfluidic chip, Basabe‐Desmonts L., et al. Anal. Bioanal. Chem., 390,1 , 2008, 307‐315

SELF ASSEMBLE MONOLAYER

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IIntroduction

Scarmagnani S. et al. J. Mat. Chem. , 18, 42, 2008, 5063‐5071.

PHOTO‐SWITCHABLE SPIROPYRANS

• NEW ROUTES TO MULTI‐FUNCTIONAL MATERIALS.

• PHOTO‐REVERSIBLE INTERCONVERSION.

• INCORPORATED  INTO MEMBRANES  AND  BEADS.  FOR  IMPROVED  ROBUSTNESS  AND EASE OF HANDLING.

• THEY HAVE METAL ION‐BINDING AND MOLECULAR RECOGNITION PROPERTIES.(MOLECURAR PROBES)

Byrne R., et al. J. Mat. Chem. 2006, 16, 1332 – 1337.

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DDevice Fabrication

1. Mask Fabrication:

2. Contact Photolithography:

3. Microfluidic Connections Insertion.

Rapid phototyping and replication technique

94 μm depth150 μm width channels

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EExperimental Set‐up

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DDevice Functionalisation

1. Exposure of the PDMS chips to UV/ozone.

2. Sealing to the glass slide.

3. Fill the activated channels with a solution of MC-COOH in ethanol.

4. Chips placed in an oven for 2 h at 60 ºC in the dark.

5. Sonication in ethanol for 15 min to eliminate any not immobilised SP-COOH.

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SSwitching CharacterizationGREEN LIGHT IRRADIATON

Cycles are reproducible and repeatable, with no hysteresis. The micro-fluidic device can be used 10 times, without significant photobleaching.

..21237 auI SPMC ±−=Δ →

..18235 auI MCSP ±+=Δ →

k = 0.51 ± 0.05 s-1

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RResults & Discussions 

MC‐COOH + Co2+MC‐COOH

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RResults & Discussions 

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RResults & Discussions 

Blank experiments

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CConclusions • An array of micro‐channels in a PDMS chip can be fabricated and subsequently functionalised with photochromic spiropyran (SP‐COOH).  

• This behaviour is fully reversible through multiple cycles.  In addition, the platform is inexpensive, and can be made using relatively simple equipment.

• This platform displays photo‐controlled uptake and release of certain metal ions, and examination of fluorescence emission can provide evidence of which ions are present.

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AAcknowledgments

Adaptive Sensors GroupAdaptive Sensors Group

Silvia Scarmagnani

Dermot Diamond

Separation Science ClusterSeparation Science Cluster

Zarah Walsh

Brett Paull

Mirek Macka

School of Chemical Sciences

: Irish Research Council for Science, Engineering and Technology (IRCSET).

Science Foundation Ireland, No. 03/IN3/1361 and 07/RPF/MASF812.

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