Effects of Column Temperature on Retention Time (SI-50 4E)

Please use this column with suppressor type ion chromatography system.

IC SI-50 4E is suitable for anion and organic acid analysis. The temperature dependency of retention time is observed: At higher temperatures, elution time of anions that elute later than phosphate (HPO₄^2-) tend to be longer and that of anions elute before nitrate (NO₃^-) tend to be shorter.

Sample : 20 μL
F^-
Acetic acid
Formic acid
Methacrylic acid
Cl^-
NO₂^-
HCO₃^-
Br^-
NO₃^-
HPO₄^2-
SO₄^2-
Oxalic acid

Column       : Shodex IC SI-50 4E (4.0 mm I.D. x 250 mm)
Eluent       : 3.2 mM Na₂CO₃ + 1.0 mM NaHCO₃ aq.
Flow rate    : 0.7 mL/min
Detector     : Suppressed conductivity

Sample Name Index

Acetic acid
Bromide, Br^-
Carbonate, CO₃^2-
Chloride, Cl^-
Fluoride, F^-
Formic acid
Hydrogencarbonate, HCO₃^-
Methacrylic acid
Nitrate, NO₃^-
Nitrite, NO₂^-
Oxalic acid
Phosphate dibasic, HPO₄^2-
Sulfate, SO₄^2-

Operation Manual / Certificate of Analysis

Operation Manuals and Certificate of Analysis / Inspection Certificate for the following products can be downloaded here.

SI-50 4E (IC)

Product Name Index

SI-50 4E (IC)

Applications

Table of Anion Retention Time under Various Eluent Conditions (SI-90 4E)
Effects of Sodium Carbonate Concentration on Retention Time (SI-90 4E)
Effects of Sodium Bicarbonate Concentration on Retention Time (SI-90 4E)
Effects of Temperature on Elution Time (SI-90 4E)
Effects of Added Acetonitrile on the Retention Time (SI-90 4E)
Effects of Sodium Carbonate Concentration on Retention Time (SI-50 4E)
Anion Standards (19) Rapid Analysis (SI-90 4E)
Anion Standards (20) (Simultaneous Analysis of HS^-, SO₃^2-, SO₄^2- and S₂O₃^2-) (SI-90 4E)
Anion Standards (21) (Methanesulfonic Acid)
High Sensitive Analysis of Anions (SI-90 4E)
Anion Standards and Organic Acids (2) (SI-90 4E)
Anion Standards and Organic Acids (3) (SI-50 4E)
Mineral Water (2) (SI-90 4E)
Sulfite in Wine (2) (SI-90 4E)
Sodium Azide (2) (SI-90 4E)
Sulfamic Acid (SI-90 4E)
Sea Water (3) (SI-90 4E)
Perchloric Acid (SI-90 4E)
Analysis of Iodide Ion (SI-90 4E)
Fluoroacetid Acids (SI-50 4E)
Anion Analysis in Lithium Salts (3) (SI-90 4E)
Analysis of Oxyhalides (SI-52 4E)
Effects of Temperature on Retention Time (SI-52 4E)
Calibration Curves for Oxyhalides (SI-52 4E)
Analysis of Organic Acids and Oxyhalides (SI-52 4E)
Analysis of Oxyhalides and Anions (SI-52 4E)
Analysis of Oxyhalides and Anions in River Water (SI-52 4E)
Analysis of Oxyhalides and Anions in Rain Water (SI-52 4E)
Analysis of Oxyhalides and Anions in Tap Water (SI-52 4E)
Iodic Acid (SI-52 4E)
Separation of Phosphate, Phosphtite and Hypophosphite (SI-52 4E)
Separation of Phosphate, Phosphtite and Hypophosphite (SI-90 4E)
Analysis of Chloride According to Japanese Testing Methods for Fertilizers (SI-52 4E)
Analysis of Sulfate According to Japanese Testing Methods for Fertilizers (SI-90 4E)
Rapid Analysis of Oxyhalides and Anions (SI-35 4D) (1)
Rapid Analysis of Oxyhalides and Anions (SI-35 4D) (2)
Effects of Temperature on Retention Time (SI-35 4D)
Analysis of Oxyhalides and Anions in Tap Water (SI-35 4D)
Analysis of Organic Acids and Oxyhalides (SI-35 4D)
Methanesulfonic Acid and Methanedisulfonic Acid (SI-35 4D)
Calibration Curves (SI-35 4D)
Effects of Injection Volume (SI-35 4D)
Effects of Sample Concentration on Theoretical Plate Number (SI-35 4D)
Analysis of Tricarboxylic Acids (SI-35 4D)
Effects of Sodium Carbonate Concentration on Retention Time (SI-35 4D)
Analysis of Sulfite in Disposable Wooden Chopsticks (SI-35 4D)
Analysis of Alkyl Sulfonic Acids (2) (SI-35 4D)
Rapid Analysis of Anion Standards (SI-35 2B)
Calibration Curves (SI-35 2B)
Effects of Temperature on Retention Time (SI-35 2B)
Analysis of Anions (SI-36 4D)
Effects of Potassium Hydroxide Concentration on Retention Time (SI-36 4D)
Effects of Potassium Hydroxide Concentration on Retention Time (2) (SI-36 4D)
Effects of Temperature on Retention Time (SI-36 4D)
Simultaneous Analysis of Common Oxyhalides and Anions (SI-37 4D)
Analysis of Oxyhalides in Artificial-Drinking Water According to EPA Method 300.1 (SI-37 4D)