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Conventional electron microscopy (EM) involves dehydration, fixation, and staining of biological samples, which distorts the native state of biological molecules and results in several artifacts. Also, the high-energy electron beam damages the sample and makes it difficult to obtain high-resolution images. These issues can be addressed using cryo-EM, which uses frozen samples and gentler electron beams. The technique was developed by Jacques Dubochet, Joachim Frank, and Richard Henderson, for...
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Heat is a widely used method to control microbial growth by targeting and denaturing cellular proteins, thereby killing or inactivating microbes. This method's effectiveness is quantified using parameters such as the thermal death point (TDP), thermal death time (TDT), and decimal reduction time (D value). TDP represents the lowest temperature at which all microorganisms in a liquid suspension are eliminated within 10 minutes, whereas TDT is the time necessary to achieve sterilization at a...
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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...
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To be visualized by an electron microscope, either transmission or scanning, biological samples need to be fixed (stabilized) so the electron beam does not destroy them and dried thoroughly (desiccated/dehydrated) so the vacuum does not affect them. Fixation needs to be done as quickly as possible because the sample properties will start changing as soon as it is removed from its natural environment. For example, in a tissue sample, the oxygen levels begin decreasing, causing an altered...
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Related Experiment Video

Updated: Dec 14, 2025

Rapid Freezing using Sandwich Freezing Device for Good Ultrastructural Preservation of Biological Specimens in Electron Microscopy
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Freeze-Drying Technology in Foods.

Valentina Prosapio1, Estefania Lopez-Quiroga1

  • 1School of Chemical and Engineering, University of Birmingham, Birmingham B15 2TT, UK.

Foods (Basel, Switzerland)
|July 17, 2020
PubMed
Summary
This summary is machine-generated.

Freeze-drying, also known as lyophilisation, is a crucial food industry drying technique. This method preserves food quality by removing water under vacuum at low temperatures.

Keywords:
encapsulationfood qualityfreeze-dryingmicrostructuremodellingprocess designprocesses combinationrehydration

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Area of Science:

  • Food Science
  • Chemical Engineering

Background:

  • Freeze-drying (lyophilisation) is a widely utilized drying process in the food sector.
  • It involves removing water from a product after it has been frozen, typically under vacuum and at low temperatures.

Discussion:

  • The process is valued for its ability to maintain the structural integrity and chemical properties of sensitive food products.
  • Understanding the parameters of freeze-drying is key to optimizing product quality and shelf-life.

Key Insights:

  • Freeze-drying effectively minimizes damage to food matrices compared to other drying methods.
  • The low-temperature and vacuum conditions preserve volatile compounds and nutritional value.

Outlook:

  • Further research can optimize freeze-drying cycles for specific food types to enhance efficiency.
  • Exploring novel applications of freeze-drying in the food industry, such as for functional ingredients, holds promise.