Vapor phase osmometry (VPO), also known as vapor-pressure osmometry, is an experimental technique for the determination of a polymer's number average molecular weight, Mn. It works by taking advantage of the decrease in vapor pressure that occurs when solutes are added to pure solvent. This technique can be used for polymers with a molecular weight of up to 20,000 though accuracy is best for those below 10,000.[1] Although membrane osmometry is also based on the measurement of colligative properties, it has a lower bound of 25,000 for sample molecular weight that can be measured owing to problems with membrane permeation.[2]
A typical vapor phase osmometer consists of: (1) two thermistors, one with a polymer-solvent solution droplet adhered to it and another with a pure solvent droplet adhered to it; (2) a thermostatted chamber with an interior saturated with solvent vapor; (3) a liquid solvent vessel in the chamber; and (4) an electric circuit to measure the bridge output imbalance difference between the two thermistors.[3] The voltage difference is an accurate way of measuring the temperature difference between the two thermistors, which is a consequence of solvent vapor condensing on the solution droplet (the solution droplet has a lower vapor pressure than the solvent).[4]
Mn Calculation and Calibrationedit
The number average molecular weight for a polymer sample is given by the following equation:[5]
where: is a calibration constant, is the bridge imbalance output voltage, is the polymer-solvent solution concentration
It is necessary to calibrate a vapor phase osmometer and it is important to note that K is found for a particular solvent, operational temperature, and type of commercial apparatus.[6] A calibration can be carried out using a standard of known molecular weight. Some possible solvents for VPO include toluene, tetrahydrofuran, or chloroform. Once the experiment is performed, concentration and output voltage data can be graphed on a plot of (ΔV/c) versus c. The plot can be extrapolated to the y-axis in order to obtain the limit of (ΔV/c) as c approaches zero. The equation above can then be used to calculate K.
Alternativesedit
Vapor phase osmometry is well suited for the analysis of oligomers and short polymers while higher polymers can be analyzed using other techniques such as membrane osmometry and light scattering. As of 2008, VPO faces competition from matrix-assisted laser desorption ionisation mass spectrometry (MALDI-MS), but VPO still has some advantages when fragmentation of samples for mass spectrometry may be problematic.[7]
Referencesedit
^Bersted, Bruce A. (1973). "Molecular Weight Determination of High Polymers by Means of Vapor Pressure Osmometry and the Solute Dependence of the Constant of Calibration". Journal of Applied Polymer Science. 17 (5): 1415–1430. doi:10.1002/app.1973.070170509.
^Bersted, Bruce A. (1973). "Molecular Weight Determination of High Polymers by Means of Vapor Pressure Osmometry and the Solute Dependence of the Constant of Calibration". Journal of Applied Polymer Science. 17 (5): 1415–1430. doi:10.1002/app.1973.070170509.
^Chanda, Manas (11 January 2013). Introduction to Polymer Science and Chemistry. CRC Press. pp. 176–180. ISBN978-1-4665-5384-2.
^Chanda, Manas (11 January 2013). Introduction to Polymer Science and Chemistry. CRC Press. p. 179. ISBN978-1-4665-5384-2.
^Mrkvicakova, L.; Pokorny, S. "On the Reliability of Molecular Weight Determination by Vapor Pressure Osmometry". {{cite journal}}: Cite journal requires |journal= (help)
^Chalmers, John M.; Meier, Robert J. Molecular Characterization and Analysis of Polymers. Wilson & Wilson's. ISBN978-0-444-53056-1.
January 01, 1970
vapor, pressure, osmometry, vapor, phase, osmometry, also, known, vapor, pressure, osmometry, experimental, technique, determination, polymer, number, average, molecular, weight, works, taking, advantage, decrease, vapor, pressure, that, occurs, when, solutes,. Vapor phase osmometry VPO also known as vapor pressure osmometry is an experimental technique for the determination of a polymer s number average molecular weight Mn It works by taking advantage of the decrease in vapor pressure that occurs when solutes are added to pure solvent This technique can be used for polymers with a molecular weight of up to 20 000 though accuracy is best for those below 10 000 1 Although membrane osmometry is also based on the measurement of colligative properties it has a lower bound of 25 000 for sample molecular weight that can be measured owing to problems with membrane permeation 2 Contents 1 Experiment 2 Mn Calculation and Calibration 3 Alternatives 4 ReferencesExperiment editA typical vapor phase osmometer consists of 1 two thermistors one with a polymer solvent solution droplet adhered to it and another with a pure solvent droplet adhered to it 2 a thermostatted chamber with an interior saturated with solvent vapor 3 a liquid solvent vessel in the chamber and 4 an electric circuit to measure the bridge output imbalance difference between the two thermistors 3 The voltage difference is an accurate way of measuring the temperature difference between the two thermistors which is a consequence of solvent vapor condensing on the solution droplet the solution droplet has a lower vapor pressure than the solvent 4 Mn Calculation and Calibration editThe number average molecular weight for a polymer sample is given by the following equation 5 M n K lim c 0 D V c displaystyle M n K lim c to 0 Delta V c nbsp where K displaystyle K nbsp is a calibration constant D V displaystyle Delta V nbsp is the bridge imbalance output voltage c displaystyle c nbsp is the polymer solvent solution concentrationIt is necessary to calibrate a vapor phase osmometer and it is important to note that K is found for a particular solvent operational temperature and type of commercial apparatus 6 A calibration can be carried out using a standard of known molecular weight Some possible solvents for VPO include toluene tetrahydrofuran or chloroform Once the experiment is performed concentration and output voltage data can be graphed on a plot of DV c versus c The plot can be extrapolated to the y axis in order to obtain the limit of DV c as c approaches zero The equation above can then be used to calculate K Alternatives editVapor phase osmometry is well suited for the analysis of oligomers and short polymers while higher polymers can be analyzed using other techniques such as membrane osmometry and light scattering As of 2008 VPO faces competition from matrix assisted laser desorption ionisation mass spectrometry MALDI MS but VPO still has some advantages when fragmentation of samples for mass spectrometry may be problematic 7 References edit Bersted Bruce A 1973 Molecular Weight Determination of High Polymers by Means of Vapor Pressure Osmometry and the Solute Dependence of the Constant of Calibration Journal of Applied Polymer Science 17 5 1415 1430 doi 10 1002 app 1973 070170509 Bersted Bruce A 1973 Molecular Weight Determination of High Polymers by Means of Vapor Pressure Osmometry and the Solute Dependence of the Constant of Calibration Journal of Applied Polymer Science 17 5 1415 1430 doi 10 1002 app 1973 070170509 Hunt B J James M I Polymer Characterization 1 ed Springer Netherlands Chanda Manas 11 January 2013 Introduction to Polymer Science and Chemistry CRC Press pp 176 180 ISBN 978 1 4665 5384 2 Chanda Manas 11 January 2013 Introduction to Polymer Science and Chemistry CRC Press p 179 ISBN 978 1 4665 5384 2 Mrkvicakova L Pokorny S On the Reliability of Molecular Weight Determination by Vapor Pressure Osmometry a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help Chalmers John M Meier Robert J Molecular Characterization and Analysis of Polymers Wilson amp Wilson s ISBN 978 0 444 53056 1 Retrieved from https en wikipedia org w index php title Vapor pressure osmometry amp oldid 983807456, wikipedia, wiki, book, books, library,
