Understanding Ion Selective Sensors: A Short Introduction

UnderstandingIon Selective Sensors:A Short Introduction

Written By: Thomas A. D. PatkoAdvanced Sensor Technologies, Inc.

603 N. Poplar St. Orange CA 92868-1011 USALast Revised April 2009

Accessible Online from http://www.astisensor.com

Ion Selective Sensors (1)

Advantages of low cost and portabilityMajor Types of Ion Selective Sensors

Glass, Crystalline and Solvent PolymericGlass

Hydronium (pH), Na+, K+

CrystallineSilver (Ag+), Chloride (Cl-), Bromide (Br-),Iodide (I-), Sulfide (S2-), Cyanide (CN-), andThiocyanate (SCN-)

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

Ion Selective Sensors (2)

Solvent Polymeric Cation SensorsPotassium, Ammonium, Calcium, Lithiumand many others

Solvent Polymeric Anion SensorsLimited, with poor performance and lifetime

Need for improved anion sensorsWhat is different about anions vs. cations?

Large ionic radius, oxoanions, organicanions, charge distribution & charge density

Anal. Chem. 2001, 73, 88A-97A

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

Ion Selective Sensors (3)

General form of Nernst EquationE = E0(T) + (RT/zF) ln ( a(OX) / a(RED) )

Simplified Form used for TestingE = E0 - 0.05916*log10 [ION]

Assumptions for Simplified FormConstant Temperature (25° C)Reduced or Oxidized species is Liquid or Gas[ION] is the mean Molar activity of the speciesDI Water and Single Electrolyte Solution

Pure & Appl. Chem. 1994, 66, 2527-2536.

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

Laboratory Measurement Testing Setup

Double junction ISEmeasuring electrodeQuartz fiber calomelreference electrodeused for stabilityand accuracyAll test performedat 25º C

Ag(s)|AgCl(s)|KCl(Pt(s)|Hg(l)|Hg2Cl2(sat),KCl(Sat)|Cl-(aq)|| (REFERENCE)Sat)|KNO3(0.001 M)|ISE|ext.soln|| (MEASURE)

Anal. Chem. 2001, 73, 88A-97A

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

Helmoholtz Double Layer

Inner compactlayer not solvatedOuter diffuse layeris solvatedPotential generatedbetween activity atsurface of inner &outer solutionC+ is Large CationI is IonophoreA- is Anion

Surf. Sci. 2003, 540, 401-406.Chem. Rev. 1997, 97, 3083-3132.

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

Typical Electrochemical Response Plot

Lowest limit ofdetection and linearmeasurement range arefundamentalcharacteristics of anyion selective sensorGood lowest limit ofdetection is 10-6 to 10-7

Good linearmeasurement range is10-5 to 10-1

Pure & Appl. Chem. 1975, 48, 127-132.

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

Selectivity Coefficients (1)

Separate (Single)Solution MethodsPractical Slope MethodRefinementE = E°A + SA log10 aA

E = E°B + SB log10 aB

KpotA,B(PSM)=10(E°b- E°a)/Sa

Alternate MatchedPotential Method

Pure & Appl. Chem. 2008, 80, 85-104.Chin. Chem. Lett. 2002, 13, 355-358.

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

Selectivity Coefficients (2)

Anion Ion SelectiveSensor Response PlotInterfering Ion 1, 2 &3 use PSM methodInterfering Ion 4 usesMatched PotentialAbsolute Response toAll Ions Convergesnear Lowest Limit ofDetection (at about+100 mV for this plot)

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

Visualization of Binding for theClassical Ionophore Nonactin (1)

NaturallyOccurringIonophoreHighlysymmetricmesocompoundConformationis flexible

(R)

O

(S)

(S)

O

O

(S)

H

(S)

O

(R)

(R)

OO(R)

H

H

H

(R)

O

(S)(S)

O

O

(S)

H

(S)

O

(R)

(R)

OO (R)

H

H

H

Anal. Chem. 2003, 75, 152-156.

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

Visualization of Binding for theClassical Ionophore Nonactin (2)

Unbound conformation is “relaxed” and almost planarLack of strong intramolecular non-bonding dipole orhydrogen bonding interactions means a very loose andnonactin is a flexible molecule when no ion is presentAssumes many optimal conformation for different ions

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

Visualization of Binding for theClassical Ionophore Nonactin (3)

Puckeredconformationbound toammoniumPreorganizationwith ion boundGood overlap ofoxygens tostabilize chargedammoniumhydrogens

J. Am. Chem. Soc. 2002, 124, 5374-5379.

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

Visualization of Binding for theClassical Ionophore Nonactin (4)

Difference instructure betweenbound andunbound is the“preorganization”Difference inbinding affinitybetween NH4

+

and K+ is basisfor selectivitycoefficient

J. Am. Chem. Soc. 1992, 114, 7542-7549.

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

Anion Selective Sensors (1)

Solvent polymeric ion selective electrodes basedon the classical ion exchange quaternaryammonium salt tridodecylmethylammoniumchloride salt (TDDMACl), the potentiometricresponse follows the Hofmeister series

ClO4- > SCN- > Salicylate > I- > NO3

- > NO2- > Br- >

Cl-, HSO3- > CH3COO-, HCO3

- > HSO4-

Perchlorate is the most lipophobic (proteindestabilizing and denaturing) and bisulfate is themost lipophilic (protein stabilizing)

Arch. Exp. Pathol. Pharmakol. 1888, 24, 247-260.Curr. Opin. Chem. Biol. 2006, 10, 658-663.

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

Anion Selective Sensors (2)

Hofmeister series is a ranking of the natural “perm”selectivity of these various anions to biological likemembranes including solvent polymericBuilding anti-Hofmeister selective anion receptorspresents some very serious difficulties, and is thusan area of intensive research interest.Detecting perchlorate and thiocyanate (high inseries) is relatively easy, while detectingbicarbonate and bisulfate (low in series) is quitedifficult and in fact very few good ionophores existfor them.

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

What are Ionophores?

Ionophores are molecules that selectively bindand transport ions across a membraneAn ideal Ionophore would be:

Neutral in charge (to minimize leaching)Highly selective (1,000 times or better selectivity)Have a large linear response range (10-7-1 Molar)Soluble in common organic solvents (i.e. THF)Insensitive to Reduction & OxidationAble to operate over a broad pH range (1-13)Stable for a long period of time (6-12 months)Able to operate over a wide temperature range(5-50 °C or better)

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

What Type of Ionophores Exist?

Naturally Produced IonophoresUsually produced by bacteria or other microbesThese molecules are often also antibiotics andare usually long-chain macrocylesExamples:

Nonactin (NH4+), Valinomycin (K+), …Small Molecule (Synthesized) Ionophores

These molecules typically mimic naturallyoccurring active sites of proteins or antibioticsExamples:

Crown Ethers, Salens, Cryptands…

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

What are Ionophores Used For?

Ionophores are used for a wide variety of tasksbut we shall focus on their use as neutralcarriers for ion selective electrodes for use inaqueous analytical electrochemistryIonophores have been reported to selectivitydetect ions in aqueous solutions in suitablesolvent polymeric and silicone membranesWe shall only consider the ubiquitous solventpolymeric type membranes, as they are currentlythe only viable platform for cost effective ionselective electrodes

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

What is a solvent polymeric membrane?

Typical solvent polymeric membranes consist ofthe following components:

Ionophore soluble in THFTypically 1-10% by weight (typically ~3-5%)

High molecular weight PVCTypically ~20-50% by weight (typically ~30%)

Selected plasticizers (solvent mediators) improveionophore solubility & lower membrane resistance

Typically ~50-80% by weight (typically ~60%)Selected lipophilicity additives

Only required for measurement in blood or serumTypically only 0.5-2% by weight

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

How is the Quality of an Ion SelectiveElectrode Characterized? (Part 1)

Lowest Limit of Detection10-6 or 10-7 M or better is excellent for most ionsThis lowest limit of detection is primarily a functionof the thermodynamics of complexation between theionophore and the analyte ionLowest limit of detection value can vary with theplasticizer & lipophilicity additives that are employed

Linear Measurement RangeTypical Values are 10-5 to 10-1 MolarConcentration range in which a Nernstian responseis observed for a given pH and temperature range

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

How is the Quality of an Ion SelectiveElectrode Characterized? (Part 2)

Selectivity Coefficients for Interfering IonsThese values can vary with the plasticizer andlipophilicity additives that are employedThese values are highly dependent upon themethod used to determine selectivity coefficientsTypical values range from 10-100 fold selectivityratios (poor to average) to 1,000-10,000 foldselectivity ratios (Excellent)

Speed of ResponseA function of the kinetics of ionophorecomplexation & PVC membrane formulation

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

How is the Quality of an Ion SelectiveElectrode Characterized? (Part 3)

Valid pH RangeThis is usually a combination of the acid/base chemistryexhibited by the ionophore and the PVC matrix sensitivity

Thermal StabilityFunction of reactivity and decomposition of the ionophore

Drift (Measured in mV per day)

This is an equilibrium issue arising from whether themembrane is changing in characteristics

Membrane is absorbing water into PVC matrix, ionophore ismigrating out of membrane, asymmetry of ion mobility

Lifetime (Constant Inline Use or Periodic Lab Use)

This is typically an indication of the stability of the ionophoreLifetime diminished by reduction & oxidation chemistry,photosensitivity, and sensitivity to hydrolysis

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

What are some areas of development forIon Selective Measurement (Cations)?

Successful measurements utilizing naturallyproduced ionophores and well known smallmolecule ionophores. Partial List:

Na+, Li+ (several known, including crown ethers)K+ (Valinomycin)NH4

+ (Nonactin)Ca2+ (several known)

Areas of Difficulty. Partial List:Heavy Metal Ions Including:Cu2+, Pb2+, Co2+, Cd2+, Cr3+, Fe2+,3+ …Mg2+ (poor selectivity), Ag+ (non silver-halide)

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

What are some areas of development forIon Selective Measurement (Anions)?

Poor Performance for anion selective electrodesother than those covered by the silver-halide &monocrystal series. Complete List:

Fluoride (F-), Chloride (Cl-), Bromide (Br-),Iodide (I-), Cyanide (CN-), Thiocyanate (SCN-),Silver (Ag+), Sulfide (S2-)

PVC Electrodes Requiring ImprovementPartial List Only:

Perchlorate (ClO4-) - Environmental Remediation

Nitrate (NO3-) - Water Quality in Agriculture

Phosphate (PO43-), Sulfate (SO4

2-), Nitrite (NO2-),

(Various Uses)

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)

Further Technical Papers and Information

A more extensive technical paper expoundingupon the topics overviewed in this shortintroduction to ion selective sensors slideshowand adding many other topics of related interestcan be accessed from following URL:

http://www.astisensor.com/ISE_Tech/pH_ise_slides_papers.html

If you should have any further questions aboutunderstanding and using ion selective sensorsplease contact Advanced Sensor Technologies,Inc. via the proper contact form accessible via theURL link below:

http://www.astisensor.com/cgi-bin/ttx.cgi

Patko, T.A.D. Understanding Ion Selective Sensors: A Short Introduction. [Online] 2009. Availablefrom Advanced Sensor Technoloiges, Inc., http://www.astisensor.com (Last Revised April 2009)