Sephadex LH-60
CAS No.:9041-37-6
Formular:C9H8N2O3P
Molecular weight:224.24
Description
Technical Parameters
Sephadex LH-60
CAS No.:9041-37-6
Synonyms
LIPOPHILIC SEPHADEX CAS 9041-37-6; LIPOPHILIC SEPHADEX;CAS No.:9041-37-6
Chemical structural formula
CAS No.:9041-37-6
Products Description
CAS No.:9041-37-6
| Item | Specification |
|---|---|
| Appearance | White microspheres, porous |
| Gel Type | Gel filtration medium, lipophilic type |
| Structural Component | Cross-linked dextran |
| Particle Size | 100–200 mesh |
operating pH range |
2–13 |
| Operating Temperature | 4–40 °C |
| Exclusion Limit | 4000–20000 (depending on solvent) |
| Formular | C9H8N2O3S |
| Molecular weight | 224.24 |
| HS Code | 29400090 |
Storage temp.
Room Temperature
Application
CAS No.:9041-37-6
Taking advantage of molecular sieve effect, it is suitable for the separation of lipophilic molecules in organic solvents, allowing highly economical large-scale preparation of various natural products, such as steroids, terpenoids, lipids, small-molecule peptides, etc.
Package
CAS No.:9041-37-6
100g/bottle,1kg/drum,5kg/drum,25kg/drum.
Service
Customized drum/barrel/bottle packaging acceptable.
FAQ
FAQ about CAS No.:9041-37-6
Q1: What is the matrix of Sephadex LH-60?
A1: Hydroxypropyl dextran
Q2: What are the main solvent systems for Sephadex LH-60?
A2: Water, methanol, ethanol, chloroform, ethyl acetate, etc.
Q3: What are the differences between Sephadex LH-60, regular G-type and ion-exchange type Sephadex?
A3:Regular G-type (G-25/G-50): Hydrophilic only, compatible with aqueous phase exclusively; cannot be used in pure organic solvents.
Ion-exchange type (SP-C25/QAE-A25): Charged + hydrophilic, designed for aqueous phase ion exchange.
LH-60: Lipophilic + hydrophilic, compatible with both aqueous and organic phases; primarily functions as a molecular sieve, with additional partition/adsorption effects.
Q4: What are the main applications of Sephadex LH-60?
A4:Separation and purification of macromolecular peptides, proteins, polysaccharides and high-polymerization degree natural products.
Q5: Core Performance Comparison: Sephadex LH-60 vs LH-20?
A5:
| Core Dimension | Sephadex LH-20 | Sephadex LH-60 | Direct Impact on Application |
| Matrix Skeleton | Based on Sephadex G-20 matrix, with high crosslinking degree and extremely small pore size | Based on Sephadex G-60 matrix, with low crosslinking degree and large pore size | Directly determines the molecular size that can enter the gel, which is the core source of application differences |
| Water Absorption of Dry Gel | 2.0 mL/g | 6.0 mL/g | The higher the water absorption, the larger the volume after swelling, the larger the pore size, and the larger the molecules that can be accommodated |
| Molecular Sieve Separation Range (Globulin Calibrated) | 100-4000 Da | 400-10000 Da (Aqueous Phase) / 400-20000 Da (Organic Phase) | LH-20 has an upper limit of only 4000 Da, specializing in small molecules; LH-60 has an upper limit of up to 20000 Da, covering the full range of macromolecules |
| Separation Resolution | Extremely high separation resolution for small molecules in the range of 100-4000 Da | Good adaptability to samples with a wide molecular weight range, with slightly lower resolution for small molecules than LH-20 | LH-20 is suitable for the fine separation of isomers and homologs; LH-60 is suitable for the rapid fractional separation of different molecular weight segments |
| Industrial Applicability | Slightly high back pressure, with a maximum flow rate of 300 cm/h | Low back pressure, with a maximum flow rate of 400 cm/h, and better gel rigidity | LH-60 is more suitable for large-scale scale-up production with large-diameter industrial chromatography columns |
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