Hydrophilic Interaction Chromatography (HILIC)

Hydrophilic interaction chromatography (HILIC) can be a good alternative separation technique for very polar analytes that experience little retention in reversed-phase chromatography and cannot be eluted in normal-phase chromatography due to strong interactions with the stationary phase. HILIC combines the principles of normal-phase and reversed-phase chromatography by using a polar stationary phase and working with organic-rich mobile phases, which enables the analysis of highly polar molecules that are difficult to separate in traditional reversed-phase chromatography.

 

HILIC offers several advantages over other chromatographic methods, including improved sensitivity and selectivity for polar analytes, efficient compatibility with mass spectrometry due to the high proportion of organic solvents in the mobile phase, and the ability to analyse both polar and non-polar compounds in a single run. These features make HILIC an indispensable tool in analytical separation science, especially for complex sample matrices where polar compounds are of interest. On our site you will find information on the basics of HILIC separation technology, information on column selection as well as products from well-known manufacturers with filter function of the chemical specifications. We will be happy to assist you - just contact us!

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Technical Data

Basics

The HILIC separation mechanism

The retention mechanism is mainly based on the different distribution of the analytes between a very polar stationary phase and a less polar mobile phase. There is therefore a hydrophilic distribution equilibrium.

The water present in the eluent forms a hydrophilic layer on the surface of the stationary phase, in which polar analytes are preferentially retained and thus retarded. The water-rich layer of the stationary phase and the acetonitrile-rich mobile phase thus act as a liquid-liquid distribution system. Further influences on retention are electrostatic and van der Waals interactions as well as hydrogen bonds.

Stationary phases of hydrophilic interaction chromatography HILIC

Both silica-based and polymer phases are used for hydrophilic interaction chromatography. There are neutral, singly or multiply charged phases:

 

1. HILIC phases with no/low ion exchange capacity

HILIC phases with no or low ion exchange capacity (IEX capacity) have neutral modifications on the surface, such as non-acidic hydroxyl, amide or urea groups. Such HILIC phases are preferably suitable for neutral or zwitterionic analytes.

 

2. HILIC phases with high ion exchange capacity

A. With high cation exchange capacity

HILIC phases with a high cation exchange capacity (CX capacity) have acidic groups on the surface that contain acidic hydrogen atoms, such as silanols. These show increased retention for basic analytes.

 

B. With high anion exchange capacity

HILIC phases with a high anion exchange capacity (AX capacity) have basic groups on the surface, such as amines. These show increased retention for acidic analytes.

HILIC column type

Ion exchange capacity

Surface modification

Suitable for...

1

No/low IEX capacity

Neutral

Neutral/zwitterionic analytes

2

High CX capacity

Acidic

basic analytes

3

High AX capacity

Alkaline

acidic analytes

For HILIC method development, it is advisable to use at least two, preferably three different HILIC column types.

Mobile phase of hydrophilic interaction chromatography

The mobile phase always contains a certain percentage of water or aqueous buffer. Acetonitrile is usually used as the organic component in the eluent. Water is the more strongly eluting solvent, i.e. the starting eluent (lowest elution strength) contains little water (approx. 3 to 20%). In gradient separations, the water content is slowly increased during the separation, whereby the analytes are eluted after a given time. However, isocratic separations are advantageous for HILIC separations, as the HILIC separation mechanism has slow kinetics and a longer equilibration time is required for gradient separation compared to RP columns (up to 60 times the column volume). The equilibration times depend largely on the starting conditions of the gradient. The greater the differences in the gradient composition, the longer the equilibration time.

Manufacturer of HILIC columns

A large number of manufacturers now offer columns for HILIC, which is why only a selection of columns from some manufacturers is listed below.

Manufacturer

Name

Pore size

Modification

pH range

Surface area

HILIC column type[3]

ACE

HILIC N

100 Å

Polyhydroxy

2.0-7.0

Neutral

1

 

HILIC A

100 Å

Sil

2.0-7.0

Acid

2

 

HILIC B

100 Å

Aminopropyl

2.0-7.0

Basic

3

GL Sciences

Inertsil HILIC

100 Å

Diol

2.0-7.5

Neutral

1

AMT HALO®

Penta HILIC[1]

90 Å

Pentahydroxy

2.0-9.0

Neutral

1

 

HILIC[1]

90 Å

Sil

1.0-8.0

Acid

2

Kromasil

HILIC-D

60 Å

Diol

2.0-8.0

Neutral

1

Chromanic

Sunshell HILIC amide[1]

90 Å

Amide+hydrophilic group

2.0-8.0

Neutral

1

 

Sunshell HILIC-S[1]

90 Å

Sil

1.0-5.0

Acid

2

Merck

SeQuant® ZIC®-HILIC

100 Å, 200 Å

Sulfobetaine

2.0-8.0

Neutral

1

 

SeQuant® ZIC®-cHILIC

100 Å

Phosphorylcholine

2.0-8.0

Neutral

1

 

SeQuant® ZIC®-pHILIC

100 Å

Sulfobetaine

2.0-10.0

Neutral

1

Tosoh Bioscience

TSKgel Amide-80

100 Å

Carbamoyl

2.0-7.5

Neutral/Basic

1/3

 

TSKgel NH2-100

100 Å

Amines

2.0-7.5

Basic

3

Shodex

HILICpak VG-50[2]

100 Å

Amino

2.0-13.0

Basic

3

 

HILICpak VT-50[2]

100 Å

Quaternary ammonium

2.0-13.0

Basic

3

 

Asahipak NH2P[2]

100 Å

Amino

2.0-13.0

Basic

3

Sepax

Polar-100

120 Å

Poly(ethylene glycol)

1.5-8.0

Neutral

1

 

Polar diol

120 Å

Diol

1.5-8.0

Neutral

1

 

Polar silica

120 Å

Sil

1.5-8.0

Acid

2

 

Polar imidazole

120 Å

Imidazole

1.5-8.0

Basic

3

 

Polar pyridines

120 Å

Pyridine

1.5-8.0

Basic

3

Macherey nail

Nucleodur HILIC

110 Å

Sulfobetaine

2.0-8.5

Neutral

1

Osaka soda

PC HILIC

100 Å

Phosphorylcholine

3.0-7.5

Neutral

1

Thermo Scientific

Synchronis HILIC

100 Å

Sulfobetaine

2.0-8.0

Neutral

1

 

Accucore Amide-HILIC[1]

150 Å

Polyamide

2.0-8.0

Neutral

1

 

Accucore HILIC[1]

80 Å

Sil

2.0-8.0

Acid

2

 

Hypersil Gold Silica

175 Å

Sil

2.0-8.0

Acid

2

 

Hypersil Gold HILIC

175 Å

Polyethyleneimine

2.0-8.0

Basic

3

Supelco

Ascentis Express OH5[1]

90 Å

Pentahydroxy

2.0-9.0

Neutral

1

 

Ascentis Express HILIC[1]

90 Å

Sil

2.0-8.0

Acid

2

Waters

BEH Amide

130 Å, 300 Å

Amide

2.0-11.0

Neutral

1

 

Cortecs HILIC

90 Å

Sil

1.0-5.0

Acid

2

 

BEH HILIC

130 Å

Sil

1.0-9.0

Acid

2

Welch

Ultisil HILIC amide

120 Å

Amide

2.0-8.0

Neutral

1

 

 

120 Å

Sulfobetaine

2.0-8.0

Neutral

1

[1] Fused-Core (Solid-Core) Particles, [2] Base Material: Polyvinylalcohol, [3] Explanation see above in "Basics of Hydrophilic Interaction Chromatography"

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