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(S)-3-Hydroxy-gamma-butyrolactone, 5G - H0939-5G

$163.30
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SKU: H0939-5G
California prop 65
Categories:  TCI Chemicals Liquid
Description

Description

Description

  • Key Performance Benefit: 3-Hydroxy-gamma-butyrolactone is an organic solvent used in the production of malic acid and in organic synthesis reactions. Its high reactivity supports efficient chemical processing in laboratory and industrial applications.
  • Material & Construction: Produced by the hydrolysis of butyrolactone using aqueous hydrochloric acid and sodium chloride as an acidic catalyst.
  • Risk Reduction/Compliance Benefit: Reaction time depends on the amount of water present in the reaction mixture, allowing reaction conditions to be adjusted based on formulation requirements.
  • Comfort & Usability: Suitable for use in chemical laboratories and industrial environments due to its high reactivity.

Recommended For

  • Production of malic acid
  • Organic synthesis reactions
  • Synthesis of oligosaccharides
  • Chemical laboratory applications
  • Industrial chemical processing
  • Research and development activities

Product Details

  • Purity: Min. 95.0 (GC)
  • Size: 5G
  • Unit: EA
  • Molecular Formula / Molecular Weight: C₄H₆O₃ / 102.09
  • CAS No: 7331-52-4
  • Physical State: Liquid
  • Color: Very Pale Yellow
  • Melting Point: N/A
  • Condition to Avoid: Moisture Sensitive
  • Refractive Index: 1.46
  • Specific Gravity: 1.31
  • MDL No: MFCD00211247
  • PUBCSUB: 87571295
  • UNSPSC: 12352100
  • TSCA: No

Primary Industries

  • Chemical Manufacturing
  • Industrial Processing
  • Research & Development
  • Laboratory Applications
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FAQs

What types of reactions is 3-Hydroxy-gamma-butyrolactone commonly used in?

This compound is frequently used as an intermediate or reactive building block in organic synthesis. Its structure allows participation in ring-opening and functional group transformations. Researchers value it for controlled reaction pathways in fine chemical development, specialty synthesis, and research-scale formulation work.

Why is moisture control important when handling this product?

Because it is moisture sensitive, exposure to water can affect reaction efficiency and product stability. Proper storage in tightly sealed containers and controlled laboratory conditions helps preserve purity. Managing humidity is especially important when precise stoichiometry and reproducible reaction outcomes are required.

Is this material appropriate for research-scale synthesis?

Yes, its high reactivity and defined purity make it suitable for controlled laboratory synthesis projects. It is commonly used in research and development environments where small-batch experimentation, intermediate production, or method optimization requires dependable chemical performance and consistent behavior under standard laboratory conditions.

How should this chemical be stored to maintain quality?

It should be stored in a cool, dry environment away from moisture and incompatible substances. Using airtight containers and minimizing exposure during dispensing helps maintain integrity. Following standard laboratory chemical storage protocols supports stability and ensures the material performs as expected in synthesis applications.

What industries typically use this compound?

This compound is used in chemical manufacturing, specialty synthesis, and research-driven development environments. It supports both academic laboratories and industrial processing operations focused on intermediates and advanced materials. Its versatility makes it valuable in applications requiring reactive organic building blocks.