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SolventSelector

HPLC / GC solvent reference

Solvent Selector & Miscibility Chart

Check whether two solvents are miscible, look up UV cutoff, Snyder polarity index and selectivity, boiling point and viscosity, and pick a solvent by its properties. Free, cited, and runs entirely in your browser.

Compiled by Hemant RawatLast reviewed July 2026How we verify

Check two solvents

Pick any two — or tap a cell in the chart below.

Result

Full miscibility chart

Miscible Partial Immiscible
1-PrOHDCEDioxaneIPAAcOHAcetoneACNBenzeneCCl₄CHCl₃cyHexDCMEt₂ODMSOEtOHEtOAciOctaneMeOHMEKMIBKMTBEn-BuOHBuOAcHeptaneHexaneNMPPentaneDMAcDMFPyridinet-BuOHTHFTolueneEt₃NH₂O
1-Propanol
1,2-Dichloroethane
1,4-Dioxane
2-Propanol
Acetic acid
Acetone
Acetonitrile
Benzene
Carbon tetrachloride
Chloroform
Cyclohexane
Dichloromethane
Diethyl ether
Dimethyl sulfoxide
Ethanol
Ethyl acetate
Iso-octane
Methanol
Methyl ethyl ketone
Methyl isobutyl ketone
MTBE
n-Butanol
n-Butyl acetate
n-Heptane
n-Hexane
N-Methylpyrrolidone
n-Pentane
N,N-Dimethylacetamide
N,N-Dimethylformamide
Pyridine
tert-Butanol
Tetrahydrofuran
Toluene
Triethylamine
Water

General guidance for method development — miscibility varies with temperature, water content and proportions. Confirm critical mixtures at your working conditions. See methodology.

Quick reference

Common HPLC solvent properties

The properties chromatographers reach for most. See the fullUV cutoff andpolarity index tables, or the A–Z solvent list.

SolventUV cutoffPolarity P′WaterUSP class
Acetone330 nm5.1miscibleClass 3
Acetonitrile190 nm5.8miscibleClass 2
Dichloromethane233 nm3.1immiscibleClass 2
Dimethyl sulfoxide265 nm7.2miscibleClass 3
Ethyl acetate256 nm4.4partialClass 3
Methanol205 nm5.1miscibleClass 2
n-Hexane195 nm0.1immiscibleClass 2
Tetrahydrofuran212 nm4miscibleClass 2
Toluene285 nm2.4immiscibleClass 2
Water190 nm10.2misciblenot classified

How to use this tool

  1. Use the miscibility chart above to check if two solvents will mix — pick them from the dropdowns or tap a cell.
  2. Open any solvent page for its full property sheet (UV cutoff, polarity, boiling point, viscosity, USP class, safety) and what it mixes with.
  3. Use Find a solvent to filter by UV cutoff, polarity, or water-miscibility when you need a solvent that meets specific criteria.

Why miscibility and UV cutoff matter

Miscibility decides whether a mobile phase stays one clear phase or splits into two layers — mixing an immiscible pair ruins a gradient and can damage a pump. A classic trap: methanol and acetonitrile are only partially miscible with alkanes like hexane, which surprises people switching between reversed-phase and normal-phase solvents.

UV cutoff is the wavelength below which the solvent's own absorbance drowns out your analyte. Acetonitrile (~190 nm) and methanol (~205 nm) are low enough for most UV detection; acetone (~330 nm) is not. The Snyder polarity index then helps you rank eluent strength on a single 0–10.2 scale.

Browse solvents

Full property sheet, miscibility and safety for each.

Frequently asked questions

What is a solvent miscibility chart?
A miscibility chart is a grid that tells you whether two solvents will mix into one uniform phase (miscible), form two layers (immiscible), or mix only within a limited range (partially miscible). It is used to avoid phase separation when mixing mobile phases, doing extractions, or switching solvents.
How do I read the miscibility chart?
Pick one solvent on the left and one across the top; the cell where they meet shows miscible, partially miscible, or immiscible. On this site you can also just select two solvents and read the answer plus a short note.
What is the UV cutoff of a solvent?
The UV cutoff is the wavelength at which the pure solvent absorbs so strongly (an absorbance of 1 in a 1 cm cell) that it interferes with UV detection. Below that wavelength the solvent’s own absorbance swamps your analyte, so you should run UV detection above the cutoff. Acetonitrile (~190 nm) and methanol (~205 nm) are low; acetone (~330 nm) is unusable for most UV work.
What is the Snyder polarity index (P′)?
The polarity index P′ is a number (about 0 for hexane up to 10.2 for water) that ranks how polar a solvent is. It helps you estimate eluent strength in both reversed-phase and normal-phase HPLC and compare solvents on one scale.
Why are acetonitrile and methanol only partially miscible with hexane?
Polar solvents and non-polar alkanes follow the "like dissolves like" rule only weakly. At room temperature methanol and acetonitrile form two layers with hexane, heptane and other alkanes over part of the composition range — a common surprise when switching between reversed-phase and normal-phase solvents.
Acetonitrile vs methanol — which should I use in reversed-phase HPLC?
Acetonitrile has a lower UV cutoff (~190 vs ~205 nm) and much lower viscosity (less backpressure), and it is aprotic. Methanol is cheaper, is a proton donor (different selectivity), but is more viscous and absorbs at lower wavelengths less cleanly. Many methods try both because they give different selectivity.

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