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CAS

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14028-63-8

L-Glyceric Acid Hemicalcium Salt is a chemical compound that serves as a salt form of L-glycergic acid. It is recognized for its chelating and stabilizing properties, which are instrumental in various industrial applications and pharmaceutical formulations. Its capacity to bind metal ions and form stable complexes is particularly notable, offering benefits in the treatment of heavy metal poisoning and as a component in metal detoxification therapies. Furthermore, it has potential in the ceramics industry, where it can function as a sintering aid to enhance the mechanical properties of ceramic materials.

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  • 14028-63-8 Structure

  • Basic information

    1. Product Name: L-GLYCERIC ACID HEMICALCIUM SALT
    2. Synonyms: (S)-2,3-Dihydroxypropanoic acid hemicalcium salt;L-(−)-Glyceric acid hemicalcium salt monohydrate;L-2,3-Dihydroxypropanoic acid hemicalcium salt ;)-Glyceric acid heMicalciuM salt Monohydrate;(2S)-2,3-Dihydroxypropanoic acid calcium salt (2:1);Calcium (S)-2,3-dihydroxypropanoate
    3. CAS NO:14028-63-8
    4. Molecular Formula: 2C3H5O4*Ca
    5. Molecular Weight: 250.215
    6. EINECS: N/A
    7. Product Categories: N/A
    8. Mol File: 14028-63-8.mol

  • Chemical Properties

    1. Melting Point: 134 °C (dec.)
    2. Boiling Point: N/A
    3. Flash Point: N/A
    4. Appearance: /
    5. Density: N/A
    6. Refractive Index: N/A
    7. Storage Temp.: N/A
    8. Solubility: N/A
    9. CAS DataBase Reference: L-GLYCERIC ACID HEMICALCIUM SALT(CAS DataBase Reference)
    10. NIST Chemistry Reference: L-GLYCERIC ACID HEMICALCIUM SALT(14028-63-8)
    11. EPA Substance Registry System: L-GLYCERIC ACID HEMICALCIUM SALT(14028-63-8)

  • Safety Data

    1. Hazard Codes: N/A
    2. Statements: N/A
    3. Safety Statements: N/A
    4. WGK Germany: 3
    5. RTECS:
    6. HazardClass: N/A
    7. PackingGroup: N/A
    8. Hazardous Substances Data: 14028-63-8(Hazardous Substances Data)

14028-63-8 Usage

Uses

Used in Pharmaceutical Formulations:
L-Glyceric Acid Hemicalcium Salt is used as a chelating agent for its ability to bind with metal ions, which is crucial in the treatment of heavy metal poisoning. It aids in the detoxification process by forming stable complexes with the offending metal ions, facilitating their safe removal from the body.
Used in Metal Detoxification Therapies:
In the context of metal detoxification, L-Glyceric Acid Hemicalcium Salt is used as a component in therapies designed to address heavy metal toxicity. Its chelating properties make it a valuable asset in these treatments, helping to mitigate the harmful effects of heavy metals on human health.
Used in Ceramics Production:
L-Glyceric Acid Hemicalcium Salt is used as a sintering aid in the ceramics industry. Its role in this application is to improve the mechanical properties of ceramic materials, enhancing their overall quality and performance.
Used in Industrial Processes:
Beyond its applications in pharmaceuticals and ceramics, L-Glyceric Acid Hemicalcium Salt is also utilized as a stabilizer in various industrial processes. Its stabilizing properties contribute to the consistency and reliability of these processes, ensuring optimal outcomes.

Check Digit Verification of cas no

The CAS Registry Mumber 14028-63-8 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 1,4,0,2 and 8 respectively; the second part has 2 digits, 6 and 3 respectively.
Calculate Digit Verification of CAS Registry Number 14028-63:
(7*1)+(6*4)+(5*0)+(4*2)+(3*8)+(2*6)+(1*3)=78
78 % 10 = 8
So 14028-63-8 is a valid CAS Registry Number.

14028-63-8SDS

SAFETY DATA SHEETS

According to Globally Harmonized System of Classification and Labelling of Chemicals (GHS) - Sixth revised edition

Version: 1.0

Creation Date: Aug 13, 2017

Revision Date: Aug 13, 2017

1.Identification

1.1 GHS Product identifier

Product name (S)-2,3-DIHYDROXYPROPANOIC ACID HEMICALCIUM SALT

1.2 Other means of identification

Product number -
Other names GLYCERALDEHYDE 3-PHOSPHATE

1.3 Recommended use of the chemical and restrictions on use

Identified uses For industry use only.
Uses advised against no data available

1.4 Supplier's details

1.5 Emergency phone number

Emergency phone number -
Service hours Monday to Friday, 9am-5pm (Standard time zone: UTC/GMT +8 hours).

More Details:14028-63-8 SDS

14028-63-8Downstream Products

14028-63-8Relevant articles and documents

Catalyzed dehydrogenative coupling of primary alcohols with water, methanol, or amines

Zweifel, Theo,Naubron, Jean-Valere,Gruetzmacher, Hansjoerg

supporting information; experimental part, p. 559 - 563 (2009/04/14)

A working partnership: Metal-ligand cooperativity is responsible for the high activity of the rhodium amido complex 1 in the dehydrogenative coupling of primary alcohols with water, methanol, or amines, including ammonia (see scheme), to give carboxylic acids, methyl carboxylates, or amides, respectively. The catalysis proceeds under mild reaction conditions in the presence of a recyclable hydrogen acceptor A. The multistep mechanism was elucidated by computational methods. (Chemical Equation Presented)

The First Stereoselective Synthesis of Racemic β-Multistriatin: A Pheromone Component of the European Elm Bark Beetle Scolytus multistriatus (Marsh.)

Berens, Ulrich,Scharf, Hans-Dieter

, p. 5127 - 5134 (2007/10/02)

The first stereoselective synthesis of racemic β-multistriatin (4), a component of the pheromone of the European elm bark beetle Scolytus multistriatus (Marsh.), is described.Potassium glycerate (23) is alkylated with 2-bromopentanone (26) in the presence of the phase transfer catalyst TDA-1 to form the acyloin ester 29 in 75percent yield.After trimethylsilylation of 29, intramolecular acetalization of the product 30 in the presence of catalytic amounts of trimethylsilyl triflate and perchloric acid affords a mixture of diastereomers of the bicyclic lactone 28 in 65percent yield.Reduction of 28 with LiAlH4 gives the cis-disubstituted dioxolane diol 34 in 82percent yield.Oxidation of both the primary and secondary hydroxy groups present in 34 by a modified Swern oxidation affords the keto aldehyde 35 in 61percent yield.The change of the reagent ratio of oxalyl chloride:DMSO:NEt3 from 1.1:2.4:5 to 1.2:1.2:3 and a nonaqueous workup procedure are crucial for the success of this oxidation.Intramolecular aldol condensation of 35 catalyzed by triethylammonium chloride affords the aldol 38.Acetylation of 38 and pyrolytic distillation gave the bicyclic enone 37.Oxidation of 34, aldol reaction, and formation of the enone 37 can be combined in a one-pot procedure to give an overall yield of 21percent. 1,4-Addition of lithium dimethylcuprate to the enone 37 affords ketone 36 with the methyl group exclusively in the axial position.After Wittig methylenation of 36, the olefin 40 is obtained in 76percent yield.Catalytic hydrogenation of 40 with PtO2 gives a 92:8 mixture of β- and δ-multistriatin in 85percent yield.Acid-catalyzed epimerization of 4 affords δ-multistriatin (5).Some of the compounds prepared (28, 36, 37, and 40) are of interest as multistriatin analogues.Olefin 40 is also a valuable storage form for the unstable β-multistriatin (4).

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