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Hypersil Columns

Hypersil GOLD SAX

The Thermo Fisher™ Hypersil GOLD™ SAX column is a highly stable quaternary amine strong anion exchange HPLC column built on 1.9, 3, and 5 µm particle sizes — engineered for high stability to aqueous and low pH mobile phases, making it the preferred choice for ion exchange applications that require robust performance under challenging aqueous conditions. The permanent positive charge of the quaternary amine ligand provides strong anion exchange retention that is independent of mobile phase pH — unlike weak anion exchange phases whose retention varies with protonation state. Ideally suited to the analysis of smaller organic molecules including nucleotides and organic acids, Hypersil GOLD SAX delivers outstanding peak shape and sensitivity through the Hypersil GOLD ultra-pure silica platform. Classified under USP L14 with a pore size of 175 Å, a carbon load of approximately 2.5%, and a pH range of 2 to 8, available in column lengths of 50–250 mm across 2.1, 3.0, and 4.6 mm internal diameters.

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Hypersil GOLD SAX Hypersil Columns Technical Specifications and Details

Hypersil GOLD SAX — Stable Quaternary Amine Strong Anion Exchange for Aqueous and Low pH Applications

Strong Anion Exchange — pH-Independent Retention and High Aqueous Stability

Weak anion exchange phases such as aminopropyl lose their positive charge as mobile phase pH increases above the pKa of the amine — creating pH-dependent retention that complicates method development and reproducibility. Strong anion exchange phases using a quaternary amine ligand carry a permanent positive charge regardless of pH, delivering consistent, pH-independent retention that simplifies method development and ensures robust performance.

Hypersil GOLD SAX combines this permanent strong anion exchange selectivity with high stability to aqueous and low pH mobile phases — the operating conditions most commonly used for nucleotide, nucleoside, and organic acid analysis. Built on the Hypersil GOLD ultra-pure silica platform, it delivers outstanding peak shape and sensitivity alongside the selectivity of a true strong anion exchanger.

Hypersil GOLD SAX Column — Product Image Hypersil GOLD SAX — Quaternary amine strong anion exchange, USP L14, 175 Å pore size, 2.5% carbon load, pH 2–8. Available in 1.9, 3, and 5 µm particle sizes.

Key Benefits

  • Highly stable quaternary amine strong anion exchange — permanent positive charge provides pH-independent retention; stable under aqueous and low pH mobile phase conditions
  • High stability to aqueous and low pH mobile phases — engineered for robust performance in the highly aqueous, acidic conditions used for nucleotide and organic acid analysis
  • Ideally suited to smaller organic molecules — including nucleotides, nucleosides, and organic acids that require strong anion exchange selectivity
  • Outstanding peak shape and sensitivity — Hypersil GOLD ultra-pure silica platform delivers sharp, symmetrical peaks
  • Three particle sizes — 1.9 µm (UHPLC), 3 µm, and 5 µm for the full range of HPLC and UHPLC workflows
  • USP L14 classification — supports pharmacopoeial method compliance

Strong vs. Weak Anion Exchange — Why SAX for Aqueous Low pH Methods

Feature Weak Anion Exchange (e.g. Amino) Strong Anion Exchange (SAX)
Ligand type Aminopropyl — secondary/tertiary amine Quaternary amine — permanent charge
Retention pH dependence Yes — retention decreases at high pH No — pH-independent retention
Aqueous / low pH stability Moderate High — engineered for aqueous low pH
Best for Weak anions, carbohydrates, HILIC mode Nucleotides, organic acids, strong anions
USP Classification L8 L14

Chromatographic Demonstration — Monophosphates

The chromatogram below demonstrates Hypersil GOLD SAX separating monophosphate nucleotides — a class of multiply charged, highly polar analytes that require strong anion exchange selectivity for retention and resolution under aqueous conditions.

Hypersil GOLD SAX — Monophosphates Chromatogram Hypersil GOLD SAX, 5 µm, 150 × 4.6 mm. Mobile Phase: Aqueous KH₂PO₄ (50 mM, pH 3). Temperature: 40°C. Flow Rate: 1.0 mL/min. Injection Volume: 10 µL. Detection: UV 254 nm.

Monophosphate nucleotides are resolved with sharp, well-shaped peaks under fully aqueous low pH conditions — demonstrating the aqueous stability and strong anion exchange selectivity of Hypersil GOLD SAX.

Applications

Industry / Field Application
💊 Pharmaceutical Nucleotide and nucleoside assays, organic acid counter-ion analysis
🧬 Biochemistry & Molecular Biology Nucleotide monophosphate profiling, energy metabolite analysis (AMP, GMP, CMP, UMP)
🌿 Food Science Organic acid and nucleotide content analysis in food matrices
🔬 General Chemistry Strong anion analysis in aqueous matrices; low pH ion exchange method development
🌿 Environmental Organic and inorganic anion analysis in water samples at low pH

Phase Property Overview

Property Value / Description
Phase Chemistry Quaternary amine — strong anion exchange
Particle Sizes 1.9 µm, 3 µm, 5 µm
Pore Size 175 Å
Carbon Load ~2.5%
pH Operating Range 2 to 8
Hydrophobicity Low (as indicated in manufacturer phase property chart)
Retention Mechanism Strong anion exchange — pH-independent permanent positive charge
USP Classification L14
Key Differentiator High stability to aqueous and low pH mobile phases; permanent charge vs. weak AEX

Column Format Overview

Format Particle Size Lengths Available Internal Diameters
UHPLC Column 1.9 µm 50, 100, 150 mm 2.1 mm
HPLC Column 3 µm 50, 100, 150 mm 2.1, 3.0, 4.6 mm
HPLC Column 5 µm 50, 100, 150, 250 mm 2.1, 3.0, 4.6 mm
Drop-in Guard (4/pk) 3 µm 10 mm 2.1, 4.6 mm
Drop-in Guard (4/pk) 5 µm 10 mm 2.1, 3.0, 4.6 mm
Uniguard Drop-in Guard Cartridge Holder 10 mm 2.1, 3.0, 4.6 mm

Hypersil GOLD SAX — Variants & Ordering Guide

Hypersil GOLD SAX is available in three analytical particle sizes — 1.9, 3, and 5 µm — across a range of column lengths and internal diameters, plus Drop-in Guard and Uniguard accessories.

Hypersil GOLD SAX Column Formats

Particle Size: 1.9 µm — UHPLC Column

Length (mm) 2.1 mm ID 3.0 mm ID 4.6 mm ID
50 26302-052130
100 26302-102130
150 26302-152130

Particle Size: 3 µm — Drop-in Guard (4/pk) & HPLC Column

Format Length (mm) 2.1 mm ID 3.0 mm ID 4.6 mm ID
Drop-in Guard (4/pk) 10 26303-012101 26303-014001
HPLC Column 50 26303-052130
HPLC Column 100 26303-102130 26303-103030 26303-104630
HPLC Column 150 26303-152130 26303-153030 26303-154630

Particle Size: 5 µm — Drop-in Guard (4/pk) & HPLC Column

Format Length (mm) 2.1 mm ID 3.0 mm ID 4.6 mm ID
Drop-in Guard (4/pk) 10 26305-012101 26305-013001 26305-014001
HPLC Column 50 26305-052130
HPLC Column 100 26305-102130 26305-104630
HPLC Column 150 26305-152130 26305-154630
HPLC Column 250 26305-252130 26305-253030 26305-254630

Uniguard Drop-in Guard Cartridge Holder

Length (mm) 2.1 mm ID 3.0 mm ID 4.6 mm ID
10 852-00 852-00 850-00

Dashes (—) indicate that format/dimension combination is not listed in current product literature.

📧 Subodh Trading Company — Authorized Thermo Fisher Distributor, Maharashtra > sales@subodhtrading.com

Technical Specifications — Hypersil GOLD SAX

Phase & Chemical Properties

Property Value / Description
Phase Chemistry Quaternary amine — strong anion exchange
Particle Sizes 1.9 µm, 3 µm, 5 µm
Pore Size 175 Å
Carbon Load ~2.5%
pH Operating Range 2 to 8
Hydrophobicity Low (as indicated in manufacturer phase property chart)
Retention Mechanism Strong anion exchange — permanent positive charge, pH-independent
Aqueous Stability High — engineered for aqueous and low pH mobile phases
USP Classification L14

Hypersil GOLD SAX Phase Properties

Demonstrated Method Conditions — Monophosphates Application

Parameter Value
Column Hypersil GOLD SAX, 5 µm, 150 × 4.6 mm
Mobile Phase Aqueous KH₂PO₄ (50 mM, pH 3)
Temperature 40°C
Flow Rate 1.0 mL/min
Injection Volume 10 µL
Detection UV, 254 nm

Conditions taken directly from manufacturer application chromatogram legend. Not intended as universal method recommendations for all sample types or instruments.

Column Dimensions Reference — 1.9 µm UHPLC

Cat. No. Format Length (mm) ID (mm) Particle (µm) Phase
26302-052130 UHPLC Column 50 2.1 1.9 SAX
26302-102130 UHPLC Column 100 2.1 1.9 SAX
26302-152130 UHPLC Column 150 2.1 1.9 SAX

Column Dimensions Reference — 3 µm HPLC

Cat. No. Format Length (mm) ID (mm) Particle (µm) Phase
26303-012101 Drop-in Guard (4/pk) 10 2.1 3 SAX
26303-014001 Drop-in Guard (4/pk) 10 4.6 3 SAX
26303-052130 HPLC Column 50 2.1 3 SAX
26303-102130 HPLC Column 100 2.1 3 SAX
26303-103030 HPLC Column 100 3.0 3 SAX
26303-104630 HPLC Column 100 4.6 3 SAX
26303-152130 HPLC Column 150 2.1 3 SAX
26303-153030 HPLC Column 150 3.0 3 SAX
26303-154630 HPLC Column 150 4.6 3 SAX

Column Dimensions Reference — 5 µm HPLC

Cat. No. Format Length (mm) ID (mm) Particle (µm) Phase
26305-012101 Drop-in Guard (4/pk) 10 2.1 5 SAX
26305-013001 Drop-in Guard (4/pk) 10 3.0 5 SAX
26305-014001 Drop-in Guard (4/pk) 10 4.6 5 SAX
26305-052130 HPLC Column 50 2.1 5 SAX
26305-102130 HPLC Column 100 2.1 5 SAX
26305-104630 HPLC Column 100 4.6 5 SAX
26305-152130 HPLC Column 150 2.1 5 SAX
26305-154630 HPLC Column 150 4.6 5 SAX
26305-252130 HPLC Column 250 2.1 5 SAX
26305-253030 HPLC Column 250 3.0 5 SAX
26305-254630 HPLC Column 250 4.6 5 SAX

Uniguard Drop-in Guard Cartridge Holder

Cat. No. Length (mm) ID
852-00 10 2.1 mm / 3.0 mm
850-00 10 4.6 mm

⚠️ Specifications and performance data presented here are based on publicly available manufacturer literature. Performance may vary based on application conditions, instrument configuration, and sample matrix. For method-specific guidance, contact Subodh Trading Company at sales@subodhtrading.com — authorized Thermo Fisher distributor for Maharashtra.

FAQs — Hypersil GOLD SAX Column

Q: What is the Hypersil GOLD SAX column and what is it used for?

Hypersil GOLD SAX is a highly stable quaternary amine strong anion exchange HPLC column engineered for high stability to aqueous and low pH mobile phases — ideally suited for the analysis of smaller organic molecules including nucleotides and organic acids. It delivers outstanding peak shape and sensitivity for strong anion exchange applications that are beyond the capability of standard reversed-phase or weak anion exchange columns.

Q: What is the difference between SAX (strong anion exchange) and AX (weak anion exchange)?

The key difference is the nature of the charged ligand. Hypersil GOLD SAX uses a quaternary amine ligand — a permanently positively charged group whose retention capacity is independent of mobile phase pH. Hypersil GOLD AX uses a polymeric amine ligand whose charge state depends on pH, making it a weak anion exchanger. For strong anions requiring pH-independent retention under aqueous low pH conditions, SAX is the correct choice; for HILIC-mode operation and multiply charged species under broader pH conditions, AX may be preferred.

Q: Why is Hypersil GOLD SAX specifically recommended for aqueous and low pH mobile phases?

Many strong anion exchange applications — including nucleotide and organic acid analysis — require fully aqueous or near-aqueous mobile phases at low pH (pH 2–4). Hypersil GOLD SAX is engineered for high stability under these conditions, which can be aggressive for columns not specifically designed for aqueous low pH operation. This stability ensures reproducible retention and long column lifetime in demanding aqueous ion exchange workflows.

Q: What compound classes are ideally suited for Hypersil GOLD SAX?

Hypersil GOLD SAX is ideally suited for smaller organic molecules including nucleotides (AMP, GMP, CMP, UMP and their phosphorylated variants), nucleosides, organic acids, and small inorganic and organic anions. It is particularly effective for analytes requiring permanent positive charge on the stationary phase for consistent retention — compound classes where weak anion exchange phases provide insufficient or variable retention.

Q: What was demonstrated in the monophosphates application chromatogram?

The monophosphates application demonstrates Hypersil GOLD SAX retaining and separating nucleotide monophosphates under fully aqueous low pH conditions using 50 mM KH₂PO₄ (pH 3) mobile phase at 40°C, 1.0 mL/min, with UV detection at 254 nm on a 5 µm, 150 × 4.6 mm column. All conditions are sourced directly from the manufacturer's application chromatogram legend.

Q: What USP classification does Hypersil GOLD SAX carry?

Hypersil GOLD SAX is classified under USP L14, as stated in the manufacturer's product literature. This supports its use in pharmacopoeial methods and regulated laboratory workflows specifying a USP L14 strong anion exchange stationary phase.

Q: What are the pore size, carbon load, and pH range of Hypersil GOLD SAX?

Hypersil GOLD SAX has a pore size of 175 Å, a carbon load of approximately 2.5%, and a pH operating range of 2 to 8, as stated in the manufacturer's product literature. Always refer to the column care and use instructions supplied with your column for precise operating limits.

Q: What particle sizes are available for Hypersil GOLD SAX?

Hypersil GOLD SAX is available in three analytical particle sizes: 1.9 µm (UHPLC format), 3 µm (HPLC), and 5 µm (HPLC) — covering fast UHPLC sub-minute methods through to standard analytical HPLC separations.

Q: What column lengths and internal diameters are available for Hypersil GOLD SAX?

The 1.9 µm UHPLC format is available in 50–150 mm lengths in 2.1 mm ID only. The 3 µm format covers 50–150 mm lengths across 2.1, 3.0, and 4.6 mm ID, though the 50 mm is only listed in 2.1 mm ID. The 5 µm format covers 50–250 mm lengths across 2.1, 3.0, and 4.6 mm ID. See the Variants & Ordering tab for the complete part number matrix.

Q: Is a guard column available for Hypersil GOLD SAX?

Yes. Drop-in Guard cartridges (4/pk, 10 mm) are available for 3 µm columns in 2.1 and 4.6 mm ID, and for 5 µm columns in 2.1, 3.0, and 4.6 mm ID. Uniguard Drop-in Guard Cartridge Holders are available: 852-00 (2.1 mm / 3.0 mm ID) and 850-00 (4.6 mm ID).

Q: What are the part numbers for the 150 mm Hypersil GOLD SAX columns?

The 150 mm Hypersil GOLD SAX HPLC columns are available under: 26303-152130 (3 µm, 2.1 mm ID), 26303-153030 (3 µm, 3.0 mm ID), 26303-154630 (3 µm, 4.6 mm ID), 26305-152130 (5 µm, 2.1 mm ID), and 26305-154630 (5 µm, 4.6 mm ID). All part numbers are sourced directly from manufacturer product literature.

Q: Where can I buy Hypersil GOLD SAX columns in Maharashtra?

Hypersil GOLD SAX columns are available in Maharashtra through Subodh Trading Company, the authorized Thermo Fisher distributor for Maharashtra. Subodh Trading Company supplies genuine Thermo Fisher products with full warranty and Certificate of Analysis, serving laboratories across Pune, Nagpur, Nashik, Aurangabad, Chhatrapati Sambhaji Nagar, Solapur, Sangli, Kolhapur, Satara, Ahmednagar, Jalgaon, Nanded, Amravati, Akola, Latur, Ratnagiri, Thane, and all of Maharashtra. Contact: sales@subodhtrading.com.

Q: How do I obtain a Certificate of Analysis for my Hypersil GOLD SAX column?

A Certificate of Analysis is available for every Hypersil GOLD SAX column by part number and lot number from the Thermo Fisher CoA search portal at thermofisher.com. Subodh Trading Company can also assist customers in Maharashtra — email sales@subodhtrading.com with your purchase details or column lot number.

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