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ME4331 – DSC Review APR 29 , 2008 Jeung Hwan Choi.

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Presentation on theme: "ME4331 – DSC Review APR 29 , 2008 Jeung Hwan Choi."— Presentation transcript:

1 ME4331 – DSC Review APR 29 , 2008 Jeung Hwan Choi

2 CALORIMETRY Calorimetry Differential Scanning Calorimetry
- The science of counting the heat of chemical reactions or physical changes. - In constant-pressure calorimetry, the heat measured represents the enthalpy change. Differential Scanning Calorimetry Differential Scanning Calorimetry (DSC) is a thermal analysis method in which the difference in the amount of heat applied (or removed) to increase (or decrease) the temperature of a sample material and a reference material are measured as a function of temperature. - Höhne et al. (1996) Differential Scanning Calorimetry - Perkin Elmer, Inc. - Wikipedia.org

3 DIFFERENTIAL SCANNING CALORIMETER
- The DSC will maintain the temperatures of the sample and reference equal during a scan (change of both materials from one temperature to another). - The Pyris1 Differential Scanning Calorimeter allows the user to change the temperature at a prescribed constant rate (linear temperature control). sample furnace reference furnace - Höhne et al. (1996) Differential Scanning Calorimetry - Perkin Elmer, Inc.

4 DSC – ENDOTHERMIC VS. EXOTHERMIC
- When the sample undergoes a physical transformation such as phase transitions, more (or less) heat will need to flow to it than the reference to maintain both at the same temperature. - This noticeable difference results in the appearance of an upper or lower peak, depending on whether the transformation is exothermic or endothermic. - A solid sample melting to a liquid will require more heat flowing to the sample to increase its temperature at the same rate as the reference, and is an example of an endothermic process. - If a liquid crystallizes into a solid during a cooling scan, more heat would have to be removed compared to the reference and is an example of an exothermic process. - Höhne et al. (1996) Differential Scanning Calorimetry - Perkin Elmer, Inc.

5 DSC outline – latent heat
DSC – MELTING POINT Melting point measurement heating rate = 5 °C/min - Melting point of a pure substance (i.e. ice) is the onset temperature - Onset is determined from the intersection of the slopes of the base and the rising curve Reference : Höhne et al. Differential Scanning Calorimetry Perkin Elmer, Inc. DSC outline – latent heat

6 DSC outline – latent heat
DSC - LATENT HEAT Latent heat of fusion of ice Reference : CRC Handbook of Chemistry and Physics 2007 DSC outline – latent heat

7 DSC outline – latent heat
DSC - LATENT HEAT Latent heat measurement Possible errors - Weight value - Evolution width - Baseline error (Instrument based) - Baseline error (sample based) heating rate = 5 °C/min Reference : Höhne et al. Differential Scanning Calorimetry Perkin Elmer, Inc. DSC outline – latent heat

8 DSC outline – latent heat
DSC - BASELINE Selecting a baseline Standard (linear) Sigmoidal Horizontal (from right) Linear baseline suffices for samples that : - are small in weight / volume - have a small specific transition energy - undergo a slow scanning rate Otherwise, sigmoidal baseline gives a good result Horizontal (from left) Reference : Höhne et al. Differential Scanning Calorimetry Perkin Elmer, Inc. DSC outline – latent heat

9 DSC outline – specific heat
DSC - SPECIFIC HEAT Specific heat of ice / water Reference : CRC Handbook of Chemistry and Physics 2007 DSC outline – specific heat

10 DSC outline – specific heat
DSC - SPECIFIC HEAT Specific heat measurement Red : with water Blue : empty Green : specific heat heating rate = 5 °C/min Reference : Höhne et al. Differential Scanning Calorimetry Perkin Elmer, Inc. DSC outline – specific heat

11 DSC outline – specific heat
DSC – PHASE DIAGRAM System NaCl-H2O Phase Diagram DSC outline – specific heat

12 DSC outline – specific heat
DSC – PHASE DIAGRAM 1xNaCl Thermal Analysis DSC outline – specific heat

13 DSC outline – specific heat
DSC – PHASE DIAGRAM 5xNaCl Thermal Analysis DSC outline – specific heat

14 DSC outline – specific heat
DSC – PHASE DIAGRAM 10xNaCl Thermal Analysis DSC outline – specific heat

15 DSC outline – specific heat
DSC – PHASE DIAGRAM 23.3%(w/w) NaCl Thermal Analysis DSC outline – specific heat

16 DSC outline – specific heat
DSC – PHASE DIAGRAM NaCl+H2O Thermal Analysis DSC outline – specific heat

17 DSC outline – specific heat
DSC – PHASE DIAGRAM NaCl+H2O Thermal Analysis DSC outline – specific heat

18 Cryomicroscopy - layout
Visualization of freeze-thaw events microscope LN2 dewar video text overlay cooling pump computer interfaced temperature controller cryostage Reference : Linkam Scientific Instruments Cryomicroscopy - layout

19 DSC outline – specific heat
CRYOMICROSCOPY Growth of Primary Ice Video credits : Bumsoo Han DSC outline – specific heat

20 DSC outline – specific heat
CRYOMICROSCOPY Solidification of the Eutectic Video credits : Bumsoo Han DSC outline – specific heat

21 ADD: 10xPBS eutectic (photo)
EUTECTIC SOLIDIFICATION Phase change behavior in salt solutions (10xPBS) -26°C -26°C (after supercooling) Photo credits : Adam Grovender ADD: 10xPBS eutectic (photo)

22 DSC CAL Diamond DSC 5C/min calibrations : - Baseline Curvature Calibrations - Baseline Slope Calibrations - Sample Temperature Calibrations - Furnace Calibrations - Heat Flow Calibrations

23 DSC CAL Diamond DSC 5C/min calibrations : Baseline Curvature - minimize amplitude of curve for operating temp. range Factory default Coarse control : + 1 Fine control : + 3

24 DSC CAL Diamond DSC 5C/min calibrations : Baseline Curvature - minimize amplitude of curve for operating temp. range Factory default Fine control : + 10 Fine control : + 13 Fine control : + 14 Fine control : + 15 Fine control : + 20

25 DSC CAL Diamond DSC 5C/min calibrations : Baseline Slope - minimize slope of curve for operating temp. range Factory default Slope : - 5 Slope : - 4 FSlope : - 3 Slope : + 5

26 DSC CAL Diamond DSC 5C/min calibrations : Sample Temp. Cal Correctly predict transition temperatures of standards n-Decane : Expected = , Measured = Scyclohexane : Expected = & 6.54 , Measured = & 5.2

27 DSC CAL Diamond DSC 5C/min calibrations : Furnace Calibration point temperature calibration between upper and lower temp. range - matches platinum resistance thermometer and programmed temp.

28 DSC CAL Diamond DSC 5C/min calibrations : Heat Flow Calibration - match enthalpy values with known reference materials n-Decane : H = vs /- 0.5, -0.45% T = vs /- 0.04

29 DSC CAL Diamond DSC 5C/min calibrations : Heat Flow Calibration - match enthalpy values with known reference materials H2O : H = vs /- 0.15, +1.07% T = 0 vs /- 0.01

30 END OF SLIDES

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