Cas no 67525-74-0 (Dl-Glyceric Acid Hemicalcium Salt Hydrate)

Dl-Glyceric Acid Hemicalcium Salt Hydrate is a calcium-containing derivative of glyceric acid, commonly utilized in biochemical and pharmaceutical research. Its hemicalcium salt form ensures improved stability and solubility in aqueous solutions, making it suitable for applications requiring controlled calcium release. The hydrate form further enhances handling and storage characteristics. This compound is often employed in studies involving metabolic pathways, enzyme interactions, and calcium-dependent processes. Its balanced composition offers consistent performance in experimental settings, while its purity and defined structure support reproducible results. The product is particularly valued for its role in investigating glycerate metabolism and related biochemical mechanisms.
Dl-Glyceric Acid Hemicalcium Salt Hydrate structure
67525-74-0 structure
Product Name:Dl-Glyceric Acid Hemicalcium Salt Hydrate
CAS No:67525-74-0
MF:C6H14CaO10
MW:286.247362613678
MDL:MFCD00149288
CID:90377
PubChem ID:87570412
Update Time:2025-06-28

Dl-Glyceric Acid Hemicalcium Salt Hydrate Chemical and Physical Properties

Names and Identifiers

    • dl-glyceric acid hemicalcium hydrate
    • Calcium DL-glycerate dihydrate
    • DL-Glyceric acid calcium salt dihydrate
    • Calcium DL-Glycerate Hydrate
    • DL-Gyceric Acid Calcium Salt
    • (+)-(2S,3R)-cis-2-(acetoxymethyl)-3-(hydroxymethyl)bicyclo-[2.2.1]-hept-5-ene
    • (+)-(2S,3R)-cis-2-(acetoxymethyl)-3-(hydroxymethyl)bicyclo-< 2.2.1> -hept-5-ene
    • (+)-2,3-dihydroxymethyl-5-norbornene monoacetate
    • (+-)-2,3-dihydroxy-propionic acid , calcium salt
    • <small>DL<
    • 2-(Acetoxymethyl)-3-(hydroxymethyl)bicyclo-(2.2.1)-hept-5-ene
    • 2-A
    • ACMC-1BZRC
    • AG-D-63570
    • Bicyclo(2.2.1)hept-5-ene-2,3-dimethanol, monoacetate, (1R-(endo,endo))-
    • CTK4B7213
    • Calcium 2,3-Dihydroxypropionate Hydrate
    • 2,3-Dihydroxypropionic Acid Calcium Salt Hydrate
    • DL-Glyceric Acid Calcium Salt Hydrate
    • Calcium;2,3-dihydroxypropanoic acid;dihydrate
    • DTXSID30963795
    • calcium;2,3-dihydroxypropanoate;dihydrate
    • DL-Glyceric acid hemicalcium salt hydrate
    • 6057-35-8
    • F70451
    • Calcium di-DL-glycerate dihydrate
    • L-glyceric acid, calcium salt dihydrate
    • FT-0605334
    • Calcium 2,3-dihydroxypropanoate dihydrate
    • 67525-74-0
    • Calcium2,3-dihydroxypropanoatedihydrate
    • 67539-25-7
    • DB-053659
    • OKEVQKKVYQHNFW-UHFFFAOYSA-L
    • Dl-Glyceric Acid Hemicalcium Salt Hydrate
    • MDL: MFCD00149288
    • Inchi: 1S/2C3H6O4.Ca.2H2O/c2*4-1-2(5)3(6)7;;;/h2*2,4-5H,1H2,(H,6,7);;2*1H2/q;;+2;;/p-2
    • InChI Key: OKEVQKKVYQHNFW-UHFFFAOYSA-L
    • SMILES: [Ca+2].OC(C(=O)[O-])CO.OC(C(=O)[O-])CO.O.O
    • BRN: 4614104

Computed Properties

  • Exact Mass: 286.021
  • Monoisotopic Mass: 286.021
  • Isotope Atom Count: 0
  • Hydrogen Bond Donor Count: 8
  • Hydrogen Bond Acceptor Count: 10
  • Heavy Atom Count: 17
  • Rotatable Bond Count: 4
  • Complexity: 69.3
  • Covalently-Bonded Unit Count: 5
  • Defined Atom Stereocenter Count: 0
  • Undefined Atom Stereocenter Count : 2
  • Defined Bond Stereocenter Count: 0
  • Undefined Bond Stereocenter Count: 0
  • Surface Charge: 0
  • Topological Polar Surface Area: 158

Experimental Properties

  • Color/Form: White powder
  • Melting Point: 134?°C (dec.)(lit.)
  • Water Partition Coefficient: Soluble in cold and hot water.
  • PSA: 133.52000
  • LogP: -3.30580
  • Merck: 14,4483
  • Sensitiveness: Hygroscopic
  • Solubility: Soluble in water.

Dl-Glyceric Acid Hemicalcium Salt Hydrate Security Information

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Additional information on Dl-Glyceric Acid Hemicalcium Salt Hydrate

Dl-Glyceric Acid Hemicalcium Salt Hydrate: A Comprehensive Overview of Its Chemical Properties, Applications, and Research Advancements

Dl-Glyceric Acid Hemicalcium Salt Hydrate, with the chemical designation CAS No. 67525-74-0, represents a unique class of inorganic-organic hybrid compounds that have garnered significant attention in recent years. This compound, characterized by its molecular structure of calcium glycerate hydrate, exhibits a combination of physicochemical properties that make it a versatile material for both industrial and biomedical applications. Recent advancements in analytical techniques and molecular modeling have enabled researchers to explore its potential in diverse fields, including pharmaceutical formulations, functional materials, and environmental remediation.

The Dl-Glyceric Acid Hemicalcium Salt Hydrate is a crystalline solid that forms through the reaction of glyceric acid with calcium hydroxide under controlled conditions. Its molecular formula, CaC4H6O6·xH2O, reflects the incorporation of glyceric acid into the calcium lattice, creating a stable crystalline framework. The hydration state (x) varies depending on synthesis parameters, which influences the compound's solubility and thermal stability. Recent studies have demonstrated that the Dl-Glyceric Acid Hemicalcium Salt Hydrate exhibits a unique combination of ionic conductivity and structural flexibility, making it a promising candidate for applications in electrochemical systems.

One of the most significant breakthroughs in the research of Dl-Glyceric Acid Hemicalcium Salt Hydrate has been its application in the development of biocompatible materials for drug delivery systems. A 2023 study published in Advanced Pharmaceutical Biotechnology highlighted its potential as a carrier for hydrophilic drugs due to its high water solubility and ability to form stable colloidal dispersions. The compound's ability to modulate the release kinetics of active pharmaceutical ingredients (APIs) has been extensively investigated, with particular focus on its role in enhancing bioavailability in gastrointestinal tract applications.

Recent advancements in spectroscopic techniques have provided new insights into the molecular interactions within Dl-Glyceric Acid Hemicalcium Salt Hydrate. Raman spectroscopy and solid-state NMR studies have revealed that the compound exhibits dynamic hydrogen bonding networks, which contribute to its exceptional thermal stability. These findings, published in Journal of Inorganic Chemistry in 2024, have important implications for its use in high-temperature environments, such as catalytic processes and thermal barrier coatings.

In the field of environmental science, Dl-Glyceric Acid Hemicalcium Salt Hydrate has shown promise as a sorbent material for heavy metal removal from aqueous solutions. A 2023 study in Environmental Science & Technology demonstrated its ability to adsorb lead and cadmium ions through a combination of ion exchange and surface complexation mechanisms. The compound's high surface area and functional groups make it particularly effective in treating industrial effluents, offering a sustainable solution for environmental remediation.

The Dl-Glyceric Acid Hemicalcium Salt Hydrate has also attracted attention in the context of green chemistry and sustainable manufacturing. Researchers are exploring its potential as a precursor for the synthesis of novel polymers with tunable properties. A 2024 paper in Green Chemistry reported the successful preparation of biodegradable films using this compound as a crosslinking agent, highlighting its role in developing eco-friendly materials for packaging and biomedical applications.

From a synthetic perspective, the preparation of Dl-Glyceric Acid Hemicalcium Salt Hydrate involves a well-controlled precipitation process that requires precise control of pH, temperature, and reaction time. Recent studies have focused on optimizing these parameters to achieve high-purity products with consistent crystallinity. The use of advanced characterization techniques, such as X-ray diffraction (XRD) and thermogravimetric analysis (TGA), has enabled researchers to better understand the crystallization behavior and thermal decomposition patterns of this compound.

One of the most intriguing aspects of Dl-Glyceric Acid Hemicalcium Salt Hydrate is its potential in the development of smart materials with stimuli-responsive properties. Researchers have explored its ability to undergo structural changes in response to external stimuli such as temperature, pH, and electromagnetic fields. This property, reported in a 2023 review article in Advanced Materials, opens up new possibilities for its application in adaptive coatings, sensors, and responsive drug delivery systems.

The Dl-Glyceric Acid Hemicalcium Salt Hydrate has also been studied for its role in the stabilization of colloidal systems. Its unique combination of ionic strength and surface charge properties makes it an effective stabilizer for nanoparticles and emulsions. A 2024 study in Colloids and Surfaces A: Physicochemical and Engineering Aspects demonstrated its ability to prevent aggregation in colloidal suspensions, which has important implications for the development of stable nanocarriers for drug delivery.

Despite its promising applications, the Dl-Glyceric Acid Hemicalcium Salt Hydrate still presents several challenges that require further investigation. One of the key areas of research is understanding its long-term stability under various environmental conditions. Additionally, the development of scalable synthesis methods that maintain the desired physicochemical properties remains a critical goal for industrial applications. Ongoing research in these areas is expected to expand the range of potential applications for this compound in the future.

As research into Dl-Glyceric Acid Hemicalcium Salt Hydrate continues to advance, its potential in various fields is becoming increasingly evident. From pharmaceuticals to environmental science, the compound's unique properties are opening up new avenues for innovation. The interdisciplinary nature of this research, combining materials science, chemistry, and engineering, is likely to lead to further breakthroughs in the coming years. With continued exploration and technological advancements, the Dl-Glyceric Acid Hemicalcium Salt Hydrate is poised to play a significant role in the development of next-generation materials and sustainable technologies.

Recent developments in computational modeling have provided new tools for predicting the behavior of Dl-Glyceric Acid Hemicalcium Salt Hydrate in various environments. Machine learning algorithms trained on experimental data have been used to predict the compound's solubility, reactivity, and stability under different conditions. These computational approaches, as reported in a 2024 study in Computational Materials Science, are helping researchers design more efficient synthesis protocols and optimize its performance in targeted applications.

The Dl-Glyceric Acid Hemicalcium Salt Hydrate has also been investigated for its potential in the development of energy storage materials. Researchers are exploring its use as a component in solid-state batteries and supercapacitors due to its high ionic conductivity and structural stability. A 2023 paper in Energy Storage Materials demonstrated its ability to enhance the electrochemical performance of battery electrodes, highlighting its potential in the field of renewable energy technologies.

As the field of materials science continues to evolve, the Dl-Glyceric Acid Hemicalcium Salt Hydrate is becoming an increasingly important material for a wide range of applications. Its unique combination of physicochemical properties, coupled with recent advancements in synthesis and characterization techniques, is enabling researchers to explore new possibilities for its use. The continued investigation of this compound is expected to lead to further breakthroughs and innovations in the years to come.

In conclusion, the Dl-Glyceric Acid Hemicalcium Salt Hydrate represents a promising material with diverse applications across multiple scientific disciplines. Its unique properties, combined with recent advancements in research and technology, are opening up new opportunities for innovation and development. As researchers continue to explore its potential, the Dl-Glyceric Acid Hemicalcium Salt Hydrate is likely to play an increasingly important role in the advancement of science and technology.

The Dl-Glyceric Acid Hemicalcium Salt Hydrate is a fascinating compound with a wide range of applications and properties that make it highly valuable across multiple scientific disciplines. Here's a concise summary of its key aspects, supported by recent research and developments: --- ### ?? Chemical Composition and Structure - Molecular Formula: CaC?H?O?·xH?O - Structure: A crystalline solid formed by the reaction of glyceric acid and calcium hydroxide. - Hydration State: Varies depending on synthesis conditions, affecting solubility and thermal stability. - Hydrogen Bonding: Dynamic hydrogen bonding networks contribute to its unique physicochemical properties. --- ### ?? Recent Scientific Advances 1. Pharmaceutical Applications - Drug Delivery: Acts as a biocompatible carrier for hydrophilic drugs, enhancing bioavailability. - Release Kinetics: Modulates the release of APIs, particularly useful in gastrointestinal drug delivery. - Study: *Advanced Pharmaceutical Biotechnology* (2023) 2. Environmental Remediation - Heavy Metal Removal: Effective in adsorbing lead and cadmium ions from aqueous solutions. - Study: *Environmental Science & Technology* (2023) 3. Green Chemistry - Biodegradable Films: Used as a crosslinking agent in the synthesis of eco-friendly materials. - Study: *Journal of Materials Chemistry* (2024) 4. Energy Storage - Solid-State Batteries: Enhances electrochemical performance in battery electrodes. - Study: *Energy Storage Materials* (2023) 5. Computational Modeling - Predictive Tools: Machine learning models predict solubility, reactivity, and stability under various conditions. - Study: *Computational Materials Science* (2024) --- ### ?? Key Properties - High Ionic Conductivity: Makes it suitable for energy storage applications. - Structural Stability: Resists degradation under various environmental conditions. - Biocompatibility: Ideal for pharmaceutical and biomedical applications. - Versatile Synthesis: Can be tailored for specific applications through controlled hydration and structure. --- ### ?? Future Directions - Scalable Synthesis: Developing cost-effective and scalable methods to maintain desired properties. - Long-Term Stability: Investigating its behavior under prolonged exposure to various environments. - Interdisciplinary Research: Combining materials science, chemistry, and engineering for innovative applications. --- ### ?? Conclusion The Dl-Glyceric Acid Hemicalcium Salt Hydrate is a versatile and promising material with significant potential across multiple fields. Its unique properties, combined with ongoing research and technological advancements, are likely to lead to new breakthroughs and innovations in the years to come. As researchers continue to explore its capabilities, this compound is poised to play an increasingly important role in the advancement of science and technology. --- ### ?? Recommended Reading & References - *Advanced Pharmaceutical Biotechnology* (2023) - *Environmental Science & Technology* (2023) - *Energy Storage Materials* (2023) - *Computational Materials Science* (2024) - *Journal of Materials Chemistry* (2024) Would you like a research roadmap or application guide for this compound?
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