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Polysaccharide Chiral Columns

Dependable. Scalable. Affordable.

Lux HPLC Information


 Lux Axia preparative columns are wonderful! I regularly use Lux chiral stationary phase Cellulose-2 and Cellulose-4 and less frequently, the Lux Amylose-2. In our community of chiral analysis/purification scientists, there are some who use the CC4 column instead of the *equivalent* Lux Cellulose-4. On several occasions we’ve seen separation and good peak shape on the Lux Cellulose-4 that was completely missing from the CC4. Customer support and delivery times are always within a few days. 
Scientist, GlaxoSmithKline, USA

Polysaccharide Chiral HPLC and SFC Columns at a Very Affordable Price

Optimize your chiral separation and chiral purification with Lux® polysaccharide chiral HPLC columns. The Lux family of amylose and cellulose chiral selectors provides a variety of complementary selectivities that allow you to screen for the most effective chiral separation under Reversed Phase, Polar Organic, Normal Phase, and SFC conditions. With numerous publications in peer-reviewed journals and countless applications being developed, Lux chiral HPLC columns are rapidly becoming the premier choice for simplified chiral purification and chiral separation worldwide.

Lux Chiral Resource Highlight


NEW!
 

Lux i-Amylose-3

 
Phase Description: Amylose tris(3-chloro-5-methylphenylcarbamate)
Guaranteed Alternative: CHIRALPAK® IG
 Lux i-Amylose-3 Applications  »
 
Lux Amylose-1 Chiral Phase
Lux i-Cellulose-5
Phase Description: Cellulose tris(3,5-dichlorophenylcarbamate)
Guaranteed Alternative: CHIRALPAK® IC and IC-3
 Find Lux i-Cellulose-5 Applications »
Lux Amylose-1 Chiral Phase
Lux i-Amylose-1
Phase Description: Amylose tris(3,5-dimethylphenylcarbamate)
Guaranteed Alternative: CHIRALPAK® IA® and IA-3
 Find Lux i-Amylose-1 Applications  »
 
 
 
Lux Amylose-1 Chiral Phase
Lux Amylose-1
Phase Description: Amylose tris(3,5-dimethylphenylcarbamate)
Guaranteed Alternative: CHIRALPAK® AD®, AD-H®, AD-3, AD-RH, and AD-3R
 Find Lux Amylose-1 Applications »
Lux Amylose-2 Chiral Phase
Lux Amylose-2
Phase Description: Amylose tris(5-chloro-2-methylphenylcarbamate)
Guaranteed Alternative: CHIRALPAK® AY®, AY-H®, AY-3, AY-RH, and AY-3R
 Find Lux Amylose-2 Applications »
 
Lux Cellulose-1 Chiral Phase
Lux Cellulose-1
Phase Description: Cellulose tris(3,5-dimethylphenylcarbamate)
Guaranteed Alternative: CHIRALCEL® OD®, OD-H®, OD-3, OD-RH, and OD-3R
 Find Lux Cellulose-1 Applications »
Lux Cellulose-2 Chiral Phase
Lux Cellulose-2
Phase Description: Cellulose tris(3-chloro-4-methylphenylcarbamate)
Guaranteed Alternative: CHIRALCEL OZ, OZ-H®, OZ-3, OZ-RH, and OZ-3R
 Find Lux Cellulose-2 Applications »
 
Lux Cellulose-3 Chiral Phase
Lux Cellulose-3
Phase Description: Cellulose tris(4-methylbenzoate)
Guaranteed Alternative: CHIRALCEL OJ®, OJ-H®, OJ-3, OJ-RH, and OJ-3R
 Find Lux Cellulose-3 Applications »
Lux Cellulose-4 Chiral Phase
Lux Cellulose-4
Phase Description: Cellulose tris(4-chloro-3-methylphenylcarbamate)
Guaranteed Alternative: CHIRALCEL OX-H®, OX-3, OX-RH, and OX-3R
 Find Lux Cellulose-4 Applications »
 
  • Try Lux in Your Lab Risk FREE
    If Lux analytical columns (≤ 4.6 mm ID) do not provide at least an equivalent or better separation as compared to a competing column of the same particle size, similar phase and dimensions, return the column with comparative data within 45 days for a FULL REFUND.
 

Trademarks
Lux is a registered trademark of Phenomenex. DAICEL, CHIRALCEL, CHIRALPAK, AD, AD-H, AD-RH, AY, AY-H, OD, OD-H, OD-RH, OJ, OJ-H, OJ-RH, OX-H, and OZ-H are registered trademarks of DAICEL Corporation. All such trademarks are used by Chiral Technologies under license from DAICEL Corporation. Chiral Technologies, Inc. is a subsidiary of DAICEL Corporation.


Amylose-1


Particle Sizes (µm)3, 5, 10
Pore Size (Å)1000
Back Pressure (PSI) Max4300
Compare All Phases

Amylose-1 Phase Information


Dimethyl Amylose Chiral Selector

This universally trusted amylose phenylcarbamate derivative is absolutely essential to any chiral screen. Lux Amylose-1 is a guaranteed alternative to CHIRALPAK® AD®. Expect equivalent or better performance when using this Lux phase.

The helical structure of the amylose creates a complex steric environment that provides stronger interactions and better chiral recognition abilities. Additionally, the selector’s constituents produce hydrogen bonding, dipole, and π-π interactions that all affect the CSPs ability to separate your enantiomers effectively.

PhaseParticle Sizes (µm)Pore Size (Å)Back Pressure
(PSI)
Max
Recommended Use
0Separation of enantiomers and racemic mixtures
AMP31000Separation of enantiomers and racemic mixtures
Amylose-13, 5, 1010004300Separation of enantiomers and racemic mixtures
Cellulose-13, 5, 10, 2010004300Separation of enantiomers and racemic mixtures
Cellulose-23, 5, 10, 2010004300Separation of enantiomers and racemic mixtures
Cellulose-33, 5, 10, 2010004300Separation of enantiomers and racemic mixtures
Cellulose-43, 5, 10, 2010004300Separation of enantiomers and racemic mixtures
i-Amylose-151000Separation of enantiomers and racemic mixtures
i-Amylose-33, 51000Separation of enantiomers and racemic mixtures
i-Cellulose-53, 51000Separation of enantiomers and racemic mixtures
Document Type:
Document Type Title
Brochures Affordable Chiral Columns, Brilliant Separation Power Add to My Documents
Brochures Axia- The Ultimate Pre-packed Preparative Column Add to My Documents
Other Bulk Media Selection Guide Add to My Documents
Other Chiral Column Equivalence Chart Add to My Documents
Brochures Chiral Column Selection Guide Add to My Documents
Other Chiral HPLC/SFC Method Development Poster Add to My Documents
Technical Notes Chiral Separation of Chlormezanone with a Lux® i-Amylose-3 Chiral Stationary Phase by HPLC under Polar Organic Mobile Phase Conditions Add to My Documents
Technical Notes Chiral Separation of Diniconazole with a Lux® i-Amylose-3 Chiral Stationary Phase by HPLC under Reversed Phase Mobile Phase Conditions Add to My Documents
Technical Notes Chiral Separation of Epoxiconazole with a Lux® i-Amylose-3 Chiral Stationary Phase by HPLC under Reversed Phase Mobile Phase Conditions Add to My Documents
Technical Notes Chiral Separation of Lorazepam using a Lux 5 μm i-Amylose-1 Column Add to My Documents
Technical Notes Chiral Separation of Naproxen by High Performance Liquid Chromatography on Lux i-Amylose-1 Add to My Documents
Technical Notes Chiral Separation of Nicotine Enantiomers with Polysaccharide-based Lux 3 μm AMP Column Add to My Documents
Technical Notes Chiral Separation of Oxybutynin with a Lux® i-Amylose-3 Chiral Stationary Phase by HPLC under Normal Phase Mobile Phase Conditions Add to My Documents
Technical Notes Chiral Separation of Paclobutrazol with a Lux® i-Amylose-3 Chiral Stationary Phase by HPLC under Reversed Phase Mobile Phase Conditions Add to My Documents
Technical Notes Chiral Separation of Thalidomide with a Lux® i-Amylose-3 Chiral Stationary Phase by HPLC under General Polar Organic Mobile Phase Conditions Add to My Documents
Technical Notes Chiral Separation of the Drug Product Lacosamide on a Lux® 5 µm Amylose 1 Column According to Ph.Eur. Monograph 2992 Add to My Documents
Technical Notes Chiral Separation of the Drug Product Sertraline Hydrochloride on Lux® Amylose-1 According to Ph. Eur. Monograph 1705 (TN-1186) Add to My Documents
Technical Notes Chiral Separation of the Drug Product Tamsulosin Hydrochloride on a Lux® Amylose-1 Column According to Ph. Eur. Monograph 2131 (TN-1187) Add to My Documents
Technical Notes Chiral Separation of Tröger’s Base with a Lux® i-Amylose-3 Chiral Stationary Phase by HPLC under a Normal Phase Mobile Phase Conditions Add to My Documents
Technical Notes Chromatographic Enantioseparation of Racemic Fungicide Agents using Lux Add to My Documents
Other Chromatography Bulk Media and PREP Guide Add to My Documents
Supporting Docs Clinical Resources for Toxicology Analysis Add to My Documents
Technical Notes Enantiomeric and Diasterometric Purity of Tadalafil per USP Monograph Add to My Documents
Technical Notes Enantiomeric Purity Analysis of the Drug Product Atorvastatin on Lux Amylose-1 According to the USP Monograph 2263 (TN-1192) Add to My Documents
Brochures Extend your Analytical and Preparative HPLC/ SFC Column Lifetimes Add to My Documents
Technical Notes Fast and Efficient Separation of Ten Naturally Occurring Cannabinoids by Supercritical Fluid Chromatography (SFC) using Lux® 5 μm Cellulose-2 Column Add to My Documents
Supporting Docs Frequently Asked Questions for UHPLC/HPLC Add to My Documents
Other Interactive eNote - Simplify Your Chiral Separations with Lux Add to My Documents
Technical Notes Limit of Lacosamide S enantiomer in USP Lacosamide Drug Substance using Lux® 5 µm Amylose 1 Column Add to My Documents
MSDS Lux 10 μm Amylose-1 Add to My Documents
MSDS Lux 10 μm Cellulose-2 Add to My Documents
MSDS Lux 10 μm Cellulose-4 Add to My Documents
MSDS Lux 20 μm Cellulose-2 Add to My Documents
MSDS Lux 20 μm Cellulose-4 Add to My Documents
Brochures Lux 5 Frequently Asked Questions Add to My Documents
Brochures Lux AMP Product Guide Add to My Documents
Supporting Docs Lux Care and Use Notes Add to My Documents
Brochures Lux Chiral Columns Make It Easy Add to My Documents
Supporting Docs Lux Equivalency Flyer Add to My Documents
Brochures Lux i-Amylose-3 Application Guide Add to My Documents
Brochures Lux i-Cellulose-5 Product Guide Add to My Documents
Brochures Lux Immobilized and Coated Application eBook Add to My Documents
Brochures Lux Immobilized i-Amylose-1 Product Guide Add to My Documents
Technical Notes Ph. Eur. Monograph 2737: Zolmitriptan Enantiomeric Purity on a Lux® 5 µm Amylose 1 column Add to My Documents
Other Ph.Eur. and USP - Lux Chiral Column Selection Add to My Documents
Technical Notes Screening Approach for the Separation of Pharmaceutical Compounds using Lux Polysaccharide-Based Chiral Stationary Phases in SFC Mode (TN-9004) Add to My Documents
Technical Notes Seamless Particle Scalability Between 3 μm and 5 μm Lux Amylose-1 Chiral Columns Add to My Documents
Brochures SecurityGuard Column Protection Family Brochure (UHPLC, HPLC, PREP, SFC) Add to My Documents
Technical Notes Separation of Ephedrine and Pseudoephedrine Enantiomers Using a Lux 3 μm AMP Chiral Column Add to My Documents
Technical Notes Separation of MDMA Enantiomers Using a Lux 3 μm AMP Chiral Column Add to My Documents
Technical Notes Significance of HPLC in the Development and Production of the Antiviral Drug Remdesivir Add to My Documents
Technical Notes Successful Separation of Cannabidiol Enantiomers by LC-UV Analysis using Lux Amylose Chiral Columns Add to My Documents
Other Testing Conventional Wisdom for Polysaccharide Chiral HPLC Columns Add to My Documents
Brochures The Chiral Notebook Add to My Documents
Other THE Clinical Application Notebook, Volume 2 Add to My Documents
Technical Notes Stereoisomeric Pharmaceutical Compounds by Chiral LC/MS/MS (TN-1079) Add to My Documents
Technical Notes Proton Pump Inhibitors Including Rabeprazole and Pantoprazole by Chiral HPLC (TN-1102) Add to My Documents
Technical Notes Performance Evaluation of Immobilized and Coated Polysaccharide Chiral HPLC Columns Using Generic Screening Mobile Phase Systems (TN-1128) Add to My Documents
Technical Notes Racemic Anti-Allergic Drugs by Chiral HPLC (TN-1143) Add to My Documents
Technical Notes Racemic Pain Relievers by Chiral HPLC (TN-1144) Add to My Documents
Technical Notes Racemic Vasodilator Drugs by Chiral HPLC (TN-1145) Add to My Documents
Technical Notes Racemic Anti-Anxiety and Antidepressive Drugs by Chiral HPLC (TN-1146) Add to My Documents
Technical Notes Racemic Antifungal Drugs by Chiral HPLC (TN-1147) Add to My Documents
Technical Notes High pH Chiral Separations of Amphetamine and Substituted Amphetamines with the Polysaccharide-based Lux® 3 μm AMP Column (TN-1214:) Add to My Documents
Supporting Docs Troubleshooting for HPLC: Recognizing and Anticipating Challenges during Reversed Phase HPLC Add to My Documents
Supporting Docs 5 Frequently Asked Questions About Lux Chiral Columns Add to My Documents
Technical Notes Bioanalytical Method for the LC-MS/MS Quantitative Analysis of (R)-Amlodipine and (S)-Amlodipine Enantiomers in Human Plasma Using Lux® Cellulose-4 and Strata®-X Add to My Documents
Technical Notes Chiral Purity Testing of the Drug Substance Rivaroxaban Using Lux 5 µm Cellulose 1 Chiral Column as per USP Monograph Add to My Documents
Technical Notes Chiral Separation of Atomoxetine and its S-Enantiomer on Lux i-Cellulose-5 Column (TN-1213) Add to My Documents
Technical Notes Beta Blockers by Chiral HPLC (TN-1142) Add to My Documents
Technical Notes Chiral Separation of Dextromethorphan and Levomethorphan using a Lux® AMP Chiral LC Column Add to My Documents
Technical Notes Chiral Separation of Levetiracetam Using the USP Method on the Latest L51 USP Column - Lux Amylose-1 (TN-1185) Add to My Documents
Technical Notes Chiral Separation of Synthetic Cannabinoid Metabolites (TN-1167) Add to My Documents
Technical Notes Enantiomeric Analysis of Dextromethorphan & Levomethorpan and Dextrorphan & Levorphanol in Urine and Serum by LC-MS/MS (TN-1267) Add to My Documents
Technical Notes Enantiomeric and Diastereoisomeric Resolutions of Chiral Triazole Fungicides (TN-1164) Add to My Documents
Technical Notes Enantiomeric Purity of Sitagliptin Phosphate per USP Monograph using Lux 5 µm Amylose 1 Column Add to My Documents
Supporting Docs Lux AMP Care and Use Note Add to My Documents
Other Lux Application Guide Add to My Documents
Technical Notes Novel Screening Approach for the Separation of Pharmaceutical Compounds using Lux Polysaccharide-Based Chiral Stationary Phases in SFC Mode (TN-9003) Add to My Documents
Technical Notes Separation of Solifenacin Succinate Stereoisomers per USP Monograph using Lux 5 µm Amylose 1 Column Add to My Documents
Technical Notes Alternative Selectivity of Chiral Stationary Phases Based on Cellulose tris(3-chloro-4-methylphenylcarbamate) and Cellulose tris(3,5-dimethylphenylcarbamate) (TN-1047) Add to My Documents
Technical Notes Purification of Optically Active Pharmaceutical Compounds using Axial Compressed Columns (TN-1056) Add to My Documents
Technical Notes Enantioseparation of N-FMOC a-Amino Acids Using Chiral HPLC (TN-1148) Add to My Documents
Technical Notes Enantioseparation of Racemic Herbicide Agents (TN-1162) Add to My Documents
Technical Notes Direct Comparison of HPLC and SFC for the Milligram to Gram Scale Purification of Enantiomers (TN-9001) Add to My Documents
Other USP Allowable Adjustments Guide Add to My Documents
Other USP Allowable Adjustments Guide Japanese (米国薬局方(USP)メソッドの許容調整) Add to My Documents
Other Allowable Adjustments to European Pharmacopoeia (EP) Methods Add to My Documents
Supporting Docs Care and Use Notes for SFC (Supercritical Fluid Chromatography) Add to My Documents
Technical Notes Direct Comparison of HPLC and SFC for the Milligram to Gram Scale Purification of Enantiomers (TN-9001) Add to My Documents
Technical Notes Enantioselective Analysis of Valacyclovir using a Lux Cellulose-1 Chiral Column Add to My Documents
Technical Notes Enantioseparation of Racemic Fungicide Agents using Lux Polysaccharide-Based Chiral Stationary Phases (TN-1198) Add to My Documents
Brochures Lux Chiral HPLC Column Brochure - Japanese Add to My Documents
Supporting Docs Meeting All Your PREP Needs Add to My Documents
Supporting Docs Meeting All Your SFC Needs Add to My Documents
Technical Notes Novel Approach to Separating Amphetamine Enantiomers from Urine Using Lux® 3 μm AMP Chiral Column Add to My Documents
Technical Notes Purification of Optically Active Pharmaceutical Compounds using Axial Compressed Columns (TN-1056) Add to My Documents
Technical Notes Scaling from Analytical to Preparative Chiral Chromatography While Balancing Purity, Yield, and Throughput under HPLC and SFC Conditions (TN-9002) Add to My Documents
Supporting Docs Chiral Technology Forum Interview Add to My Documents
Supporting Docs Axia Packed Columns Vs Traditional Packed Preparative Columns (Video) Add to My Documents
Phase: Particle Size: Pore Size: Length: Internal Diameter:
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Part Number:00G-4732-V0-AX

Description:Lux® 5 µm Amylose-1, LC Column 250 x 50.0 mm, AXIA™ Packed, Ea

Required Holder:

Stationary Phase:Amylose tris(3,5-dimethylphenylcarbamate)

Solid Support:Polysaccharide

Format:AXIAL Compression

Separation Mode:

Recommended Use:Separation of enantiomers and racemic mixtures

USP Designation:


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