Aqueous Normal Phase (ANP) chromatography is a powerful and versatile HPLC retention mechanism that bridges the gap between Reversed Phase (RP) and Organic Normal Phase (ONP) chromatography. The generic term for methods that use the same mobile phase are generally called HILIC.
🔍 What Is ANP Chromatography?
Definition: ANP is HILIC like in that it is a unique HPLC retention mechanism that uses a mostly organic mobile phase with varying amounts of water depending on the analytes , and a slightly hydrophobic stationary phase. It’s called “Aqueous Normal Phase” because:
- The mobile phase contains water (aqueous)
- The stationary phase is less polar than the mobile phase (normal phase behavior)
This setup allows for strong retention of polar analytes, which is often challenging in traditional reversed phase chromatography.
🔍 How Do TYPE-C Columns Compare to Other HPLC Modes?
| Mode | Stationary Phase | Mobile Phase | Retention Mechanism | Best For |
|---|---|---|---|---|
| Normal Phase (NP) | Polar (e.g., silica, amino) | Non-polar (e.g., hexane + IPA) | Adsorption | Very polar compounds in organic solvents |
| Reversed Phase (RP) | Non-polar (e.g., C18, C8) | Polar (e.g., water + MeOH or ACN) | Partition | Non-polar to moderately polar compounds |
| HILIC | Very polar (e.g., bare silica, zwitterionic) | High organic (e.g., ACN) with low water | Partition into water layer on surface | Highly polar, water-soluble compounds |
| Aqueous Normal Phase (ANP) | Slightly hydrophobic (e.g., silica hydride) | Organic-rich (e.g., ACN) with low water | Adsorption for positive ions and ion displacement for negative ions | Polar compounds, acids, amines, zwitterions |
🧪 Key Differences Between TYPE-C and Other HILIC Columns
| Feature | TYPE-C | Standard HILIC |
|---|---|---|
| Stationary Phase | Silica hydride (slightly hydrophobic) | Hydrophilic (e.g., bare silica) |
| Water Layer Formation | No | Yes |
| Retention Mechanism | Direct adsorption | Partitioning into water layer |
| Reproducibility | High (no water layer variability) | Can vary due to water layer thickness |
| MS Compatibility | Excellent | Excellent |
| Mobile Phase | High ACN with 2–5% water | High ACN with 5–20% water |
💡 Why Use TYPE-C Columns for Polar Compounds?
- Better retention of polar compounds that elute too quickly in RP
- No need for high-pH mobile phases to retain basic compounds
- Compatible with MS detection using formic or acetic acid and ammonium salts
- No water layer formation, unlike HILIC, which improves reproducibility
🧬 What Makes TYPE-C Columns Special?
ANP / HILIC is only possible on silica hydride-based stationary phases, which are different from traditional silica:
- Traditional silica has silanol (-Si-OH) groups → very hydrophilic
- Silica hydride has hydride (-Si-H) groups → slightly hydrophobic
This unique surface allows direct adsorption of polar analytes without forming a water layer, unlike other HILIC columns. It also enables robust and reproducible retention.
⚙️ Mobile Phase Setup for ANP (HILIC)
- Typical solvents: Acetonitrile with 2–5% water
- Additives: Formic acid, acetic acid, ammonium formate, or ammonium acetate
- Gradient: Start with high organic (e.g., 95%-40% acetonitrile) and decrease to increase water content
📚 Supporting Research
HILIC retention using silica hydride based phases has been demonstrated in over 200 peer reviewed journal articles including a simple explanation:
“Hydride-based stationary phases: A rapidly evolving technology for the development of new bio-analytical methods”
J.J. Pesek et al., Anal. Methods, 6 (2014), 4496–4503.
🧪 Key Takeaways
- ANP HILIC is ideal for polar compound separations in HPLC especially in LC-MS
- Uses silica hydride based columns and organic-rich mobile phases
- Offers robust, reproducible retention without the drawbacks of other HILIC Columns
- Ideal for mass spectrometry with common HPLC solvents
