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Freezing Point Depression and Boiling Point Elevation03:12

Freezing Point Depression and Boiling Point Elevation

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Boiling Point Elevation
The boiling point of a liquid is the temperature at which its vapor pressure is equal to ambient atmospheric pressure. Since the vapor pressure of a solution is lowered due to the presence of nonvolatile solutes, it stands to reason that the solution’s boiling point will subsequently be increased. Vapor pressure increases with temperature, and so a solution will require a higher temperature than will pure solvent to achieve any given vapor pressure, including one...
32.7K
Freezing Point Depression and Boiling Point Elevation01:24

Freezing Point Depression and Boiling Point Elevation

154
When a non-volatile solute is added to a pure solvent, it results in the lowering of the freezing point of the solvent. This phenomenon is called freezing point depression. The extent to which the freezing point is lowered depends on the molality of the solute -the number of moles of solute per kilogram of solvent and the cryoscopic constant of the solvent.From the plot of chemical potential, μ, against temperature, it is evident that the μ of both solid and liquid solvents decrease...
154
Phase Transitions: Melting and Freezing02:39

Phase Transitions: Melting and Freezing

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Heating a crystalline solid increases the average energy of its atoms, molecules, or ions, and the solid gets hotter. At some point, the added energy becomes large enough to partially overcome the forces holding the molecules or ions of the solid in their fixed positions, and the solid begins the process of transitioning to the liquid state or melting. At this point, the temperature of the solid stops rising, despite the continual input of heat, and it remains constant until all of the solid is...
11.7K
Frost Action on Concrete01:27

Frost Action on Concrete

575
Concrete structures in cold climates, such as those along roadsides, can retain moisture. This moisture makes them susceptible to frost-related damage when temperatures fall below freezing. Adding moisture worsens the damage during temperature fluctuations, leading to repeated freezing and thawing. De-icing salts, spread over these structures to melt ice, add to the freeze-thaw cycle, and draw even more moisture into the concrete.
This freeze-thaw cycle primarily causes surface scaling, where...
575
Sublimation01:03

Sublimation

4.4K
Sublimation is the direct transformation of a solid to a gaseous state. For instance, at standard pressure and room temperature, solid carbon dioxide sublimes to gaseous carbon dioxide. The phase diagram depicts the conditions required for sublimation. This process occurs at the solid-gas phase boundary and is not observed above the triple point of the substance. The reverse of sublimation is called deposition, where a gaseous substance condenses directly into a solid. Sublimation and...
4.4K
Phase Diagrams02:39

Phase Diagrams

45.6K
A phase diagram combines plots of pressure versus temperature for the liquid-gas, solid-liquid, and solid-gas phase-transition equilibria of a substance. These diagrams indicate the physical states that exist under specific conditions of pressure and temperature and also provide the pressure dependence of the phase-transition temperatures (melting points, sublimation points, boiling points). Regions or areas labeled solid, liquid, and gas represent single phases, while lines or curves represent...
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Related Experiment Video

Updated: May 4, 2026

Tandem High-pressure Freezing and Quick Freeze Substitution of Plant Tissues for Transmission Electron Microscopy
12:52

Tandem High-pressure Freezing and Quick Freeze Substitution of Plant Tissues for Transmission Electron Microscopy

Published on: October 13, 2014

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High-pressure freezing: current state and future prospects.

Andres Kaech1, Urs Ziegler

  • 1Center for Microscopy and Image Analysis, University of Zurich, Zurich, Switzerland.

Methods in Molecular Biology (Clifton, N.J.)
|December 21, 2013
PubMed
Summary

High-pressure freezing (HPF) advancements are detailed, focusing on the Leica EM HPM100 and its adaptable polymer cartridge system for optimized rapid cooling of diverse biological specimens.

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Area of Science:

  • Cryo-electron microscopy
  • Biological sample preparation

Background:

  • High-pressure freezing (HPF) is crucial for preserving biological ultrastructure.
  • Previous HPF methods had limitations in adaptability and cooling efficiency.

Purpose of the Study:

  • To detail recent advancements in high-pressure freezing technology.
  • To describe the functionality and applications of the Leica EM HPM100 HPF machine.

Main Methods:

  • Detailed examination of the Leica EM HPM100, emphasizing its multipart polymer cartridge system.
  • Adaptation of cartridges for various specimen carriers (e.g., aluminum, Sapphire discs) and sample types.
  • Description of advanced techniques for freezing monolayer cell cultures using composite carriers.

Main Results:

  • The new cartridge system allows automated specimen handling and optimized liquid nitrogen flow for rapid cooling.
  • Successful adaptation for diverse sample geometries, including up to 5 mm diameter specimens.
  • Demonstration of effective HPF for freeze-fracturing suspensions and cryo-sectioning.

Conclusions:

  • The Leica EM HPM100 offers significant improvements in HPF efficiency and versatility.
  • The adaptable cartridge system enhances preservation of biological samples for advanced microscopy.
  • New techniques enable high-quality cryo-preservation of various biological specimens.