SIELC, eski Pfizer bilim insanlarının kurduğu bir Amerikan teknoloji şirketidir. Özellikle Kolon Kromatografisi alanında “Mixed-mode” ayırma teknolojilerinde özelleşmiştir. Üretmiş olduğu Kromatografi kolonlarının pek çok zorlu analizde getirdiği kolaylık ve çözümlerle rakiplerinden ayrılmaktadır.
Üretmiş olduğu çok özel kolonlardan bazıları aşağıda listelenmiştir. Burada listelenenler ve daha fazlası için Spektrotek uzmanlığına başvurabilirsiniz: info@spektrotek.com
SIELC kolonları: PrimeSep, NewCrom, Obelisc, CannSep, Legacy, Promix, SHARC, Solid-Core, Speciality Columns
Aşağıda seçilmiş bazı kolonlar, özellikleri ve kullanıldıkları Aplikasyon / Uygulamaları bulabilirsiniz.
Primesep
Primesep 100 is a reverse-phase analytical column with embedded acidic ion-pairing groups
This is the most versatile column of the entire Primesep family for separation of a broad range of compounds.
- Improves retention of basic compounds by cation-exchange mechanism.
- Separates acids by ion-exclusion mechanism.
- Retains neutral compounds by reverse-phase mechanism.
- All mobile phases are LC-MS and preparative chromatography compatible.
Primesep 100 columns are available in all standard dimensions
Column IDs: 22 mm, 10 mm, 4.6 mm, 3.2 mm, 2.1 mm, 1 mm, 0.5 mm, 0.25 mm
Column Lengths: 250 mm, 150 mm, 100 mm, 50 mm, 25 mm, 10 mm
Particles: 10 µm, 5 µm, 3 µm, 2.7 µm (solid core)
Pores: 100 A
Primesep 100 Application Examples
HPLC Separation of β‑Hydroxy-β-methylbutyric Acid And Leucine
HPLC Determination of Ritodrine
HPLC Determination of Folic Acid
HPLC Method for Analysis of Gabapentin Tablets
HPLC Method for Analysis of Thymol Blue
Separation of allo-D-isoleucine and L- Isoleucine on Primesep 100 HPLC column
2,4-D Retention on Primesep 100 and Obelisc R
1-Naphthaleneacetic acid (NAA) Separation on Primesep and Obelisc Mixed-Mode Columns
16a-Hydroxyestradiol Separation on Mixed-Mode HPLC Columns
4-CPA Analysis on Obelisc and Primesep Mixed-Mode Columns
Amino Acids Analysis in Acid Gradient Condition
Amino Sugars Analysis in Ion Exchange and Reverse Mode
Analysis of Folic Acid and Related Impurities
Analysis of Nicotinic Acid in Nicotinamide
Complex Mixture of Acids, Bases, Amino Acids, and Neutral Compounds
Controlling Retention of 2,4-DB on Mixed-Mode HPLC Columns
Controlling Retention of Azinphos-ethyl on Primesep and Obelisc HPLC Columns
Dewetting Study in Aqueous Conditions
Dichlorprop (2,4-DP) Analysis on Primesep and Obelisc HPLC Columns
Diclobutrazol Separation on Primesep and Obelisc HPLC Columns
Effect of Buffer and Chemistry of Column Stationary Phase on Resolution of Neutral Compounds
Effect of Concentration of Organic Modifier on Retention of Cation and Anions
Folpet Analysis on Primesep 100 and Obelisc R HPLC Columns
HPLC Analysis of 17a-Ethynylestradiol
HPLC Analysis of 2,4,5-T on Mixed-Mode Columns
HPLC Analysis of 5-Fluorouracil on Primesep Columns with LC/MS Compatible Mobile Phase
HPLC Analysis of Active Drug and Amino Acids in a Formulation
HPLC Analysis of Bentazon on Primesep and Obelisc Mixed-Mode Columns
HPLC Analysis of Calcium Ions in Maple Syrup
HPLC Analysis of Cheese Extract using Mixed-Mode Chromatography
HPLC Analysis of Citrulline and Arginine on Primesep Columns
HPLC Analysis of Dichloran on Mixed-Mode Columns
HPLC Analysis of Diphenamid on Primesep 100 and Obelisc R
HPLC Analysis of Fatty Acids with MS Compatible Conditions
HPLC Analysis of Fentin on Obelisc and Primesep Mixed-Mode Columns
HPLC Analysis of Inosine on Primesep 100 Column
HPLC Analysis of MCPA on Primesep and Obelisc Mixed-Mode Columns
HPLC Analysis of Motrin Cough & Cold Composition
HPLC Analysis of Piperazine on Primesep Columns
HPLC Application for Analysis of Sodium Succinate on Primesep 100
HPLC Application for Retention of Guanidine by Mixed-Mode Chromatography
HPLC Diazinon Analysis on Primesep 100 and Obelisc R columns
HPLC Method for Analysis of Fluconazole
HPLC Method for Determination of Lysine in Ibuprofen Lysine Composition
HPLC Retention Control of Antibiotics in Toothpaste
HPLC Retention of Aminopyrazole
HPLC Retention of Chlorpyrifos-methyl on Primesep 100 and Obelisc R Mixed-Mode Columns
HPLC Retention of Copper Ion on Primesep 100 Mixed-Mode Cation-Exchange Columns
HPLC Retention of Pirimicarb on Primesep 100 and Obelisc R
HPLC Separation of 2-Naphthoxyacetic acid
HPLC Separation of 8 Generic Compounds on Primesep Columns
HPLC Separation of a Complex of Quinolone Antibiotics
HPLC Separation of Albuterol and Amoxicillin
HPLC Separation of Amino Acids
HPLC Separation of Amino Acids in Supplements Capsules
HPLC Separation of Amino Acids in Supplements Composition in Mixed-Mode
HPLC Separation of Aminopyridines in Non-Aqueous Mobile Phase
HPLC Separation of Aromatic Sulfonamides and Hydrozine
HPLC Separation of Benzenesulfonamide and Sulfanilamide
HPLC Separation of Caffeine and Phenylephrine
HPLC Separation of Captan on Obelisc R and Primesep 100 Columns
HPLC Separation of Carbofuran on Obelisc R and Primesep 100 Columns
HPLC Separation of Carboxylic Acids
HPLC Separation of Catecholamines on Primesep 100 Column with Phosphate Buffers
HPLC Separation of Cidofovirs Mixture
HPLC Separation of Codeine, Oxycodone, and Hydrocodone
HPLC Separation of Components of Excedrin
HPLC Separation of DMSO and Glycine by Mixed-Mode Chromatography
HPLC Separation of DOPAC, Homovanillic Acid and Dopamine on the Primesep 100 Column
HPLC Separation of Epinephrine and Epinephrine Sulfonate
HPLC Separation of Ethanolamines
HPLC Separation of GABA and GLU
HPLC Separation of Glutamic Acid and GABA
HPLC Separation of Glyphosate Production Intermediates
HPLC Separation of Guaifenesin and Terbutaline
HPLC Separation of Guanidine and Benzoic Acids on Primesep 100 Column
HPLC Separation of Hydrocortisone and Hydrocortisone’s Degradation Products
HPLC Separation of Impurities of Aminosugar
HPLC Separation of Isomers of Amino Salicylic Acid
HPLC Separation of Isomers of Aminobenzoic Acid
HPLC Separation of Metribuzin on Mixed-Mode HPLC Columns
HPLC Separation of Nabam on Mixed-Mode Columns
HPLC Separation of Phenylalanine, Glucosamine, and Tryptophan on Mixed-Mode Column
HPLC Separation of Phenylephrine with Tannic Acid Formulation
HPLC Separation of Phosphamidon on Mixed-Mode Columns
HPLC Separation of Phthalic Acids using Hydrogen Bonding
HPLC Separation of Pyridinecarboxylic Acids
HPLC Separation of Serine, a-Methylserine, GABA, and Methionine Mixture
HPLC Separation of Toluidine Isomers
Hydrophobic and Hydrophilic Compound Separation
Loading Study for Preparative Chromatography
MCPB Analysis Using Obelisc and Primesep Analytical HPLC Columns
Mecoprop Analysis on Primesep and Obelisc Mixed-Mode HPLC Columns
Nickel Contamination in Hydrogenation Products
Potassium Analysis in Organic Reaction Product
Retaining the Fungicide Carboxin on Primesep and Obelisc HPLC Columns
Retention Control of Bromacil on Primesep and Obelisc Mixed-Mode Columns
Retention of Aminolevulinic Acid in Mixed-Mode System
Retention of Monocrotophos on Primesep 100 and Obelisc R Columns
Retention of the Herbicide Dicamba on Mixed-Mode HPLC Columns
Reverse Elution Order in Separation of Alkali Cation
Reverse Mode vs Normal Mode: Separation of Aromatic Compounds
Separating Triadimefon from Impurities on Primesep and Obelisc HPLC Columns
Separation of Diacid: Ion Exclusion mode
Separation of Glyphosate by Cation Exchange and Anion Exchange
Separation of Isomers of Aminobenzoic Acid
Separation of Metal Ions on Primesep 100 Column
Separation of Oxytetracycline and Chlortetracycline in Mixed-Mode
Separation of Sodium, Potassium, Lithium, and Ammonium in Mixed-Mode HPLC
Separation of Steroids in Reverse and Normal Mode on Primesep 100 Column
Separation of Sulfonamides and Phenylhydrazine by Mixed-Mode HPLC
Separation of Sulphonium Ions in Polar Organic Mode
Separation of Thiabendazole on Mixed-Mode HPLC Columns
Separation of Zn and Mn on Primesep 100 Column
Simultaneous Separation of Cations and Anions
Terbufos Analysis on Primesep 100 and Obelisc R Columns
Zn and Na Quantitation in Drug Substances
Primesep A is a reverse-phase analytical column with embedded strong acidic ion-pairing groups.
- Improves retention of weak basic compounds by cation-exchange mechanism
- Separates acids by ion-exclusion mechanism
- Retains neutral compounds by reverse-phase mechanism
- All mobile phases are LC-MS and preparative chromatography compatible
Primesep A columns are available in all standard dimensions
Column IDs: 22 mm, 10 mm, 4.6 mm, 3.2 mm, 2.1 mm, 1 mm, 0.5 mm, 0.25 mm
Column Lengths: 250 mm, 150 mm, 100 mm, 50 mm, 25 mm, 10 mm
Particles: 10 um, 5 um
Pores: 100 A
HPLC Retention of Aminopyrazole
Mixed-Mode Retention and Separation of Ammonia, Primary and Secondary Amines on Primesep A Column
Neutral, Base, and Acid on Primesep A Column
Separation of Simple Amines and Ammonia
TFA Concentration Effect on Retention of Tricine
Primesep AB is a reverse-phase column with embedded acidic and basic ion-pairing groups.
- Improves retention of strong acidic compounds and strong basic compounds by ion-exchange mechanism
- Retains neutral compounds by reverse-phase mechanism
- All mobile phases are LC-MS and preparative chromatography compatible
Primesep AB columns are available in all standard dimensions
Column IDs: 22 mm, 10 mm, 4.6 mm, 3.2 mm, 2.1 mm, 1 mm
Column Lengths: 250 mm, 150 mm, 100 mm, 50 mm, 25 mm, 10 mm
Particles: 10 um, 5 um
Pores: 100 A
Primesep AB Application Examples
HPLC Analysis of Epinephrine and Epinephrine Sulfonate on Trimodal Column
HPLC Analysis of Polar Basic and Acetic Compounds on Primesep AB Column
HPLC Separation of Mixture of Paraquat and Diquat
Primesep B is a reverse-phase analytical column with embedded basic ion-pairing groups specifically designed for direct plasma analysis.
It contains a C12 carbon chain and basic groups with a pKa of 10.
- Does not retain high-molecular weight plasma components
- Retains hydrophobic and acidic components
- All mobile phases are LC-MS and preparative chromatography compatible (working pH range from 1.5 to 4)
Primesep B columns are available in all standard dimensions
Column IDs: 22 mm, 10 mm, 4.6 mm, 3.2 mm, 2.1 mm, 1 mm, 0.5 mm, 0.25 mm
Column Lengths: 250 mm, 150 mm, 100 mm, 50 mm, 25 mm, 10 mm
Particles: 10 µm, 5 µm
Pores: 100 A
Primesep B Application Examples
HPLC Determination of β‑Hydroxy-β-methylbutyric Acid
HPLC Separation of Acrylic Acid and 4- Methoxyphenol on Primesep B Column
HPLC Determination of Acrylic Acid on Primesep B Column
HPLC Method for Analysis of Meclizine
HPLC Determination of Cyclopropanecarboxylic Acid
Primesep B2 is a reverse-phase analytical column with embedded basic ion-pairing groups.
- Improves retention of acidic compounds by anion-exchange mechanism
- Separates bases by ion-exclusion mechanism
- Retains neutral compounds by reverse-phase mechanism
- All mobile phases are LC-MS and preparative chromatography compatible (working pH range from 1.5 to 5.5)
Primesep B2 columns are available in all standard dimensions
Column IDs: 22 mm, 10 mm, 4.6 mm, 3.2 mm, 2.1 mm, 1 mm, 0.5 mm, 0.25 mm
Column Lengths: 250 mm, 150 mm, 100 mm, 50 mm, 25 mm, 10 mm
Particles: 10 um, 5 um
Pores: 100 A
Primsep B2 Application Examples
HPLC Method for Analysis of Selenious Acid
Alachlor Separation on Obelisc and Primesep HPLC Columns
Analysis of 2,4,5-Trichlorophenoxyacetic acid on Primesep and Obelisc HPLC Columns
Analysis of Naled on Primesep and Obelisc Mixed-Mode HPLC Columns
Azinphos-ethyl Analysis on Mixed-Mode HPLC Columns
Captan Separation on Obelisc and Primesep Mixed-Mode HPLC Columns
Carbofuran Separation on Primesep and Obelisc Mixed-Mode HPLC Columns
Chlorpyrifos-methyl Separation Using Obelisc and Primesep Columns
Dicamba Analysis on Primesep and Obelisc Mixed-Mode HPLC Columns
Dichlorvos Separation on Obelisc and Primesep Mixed-Mode Columns
Diphanamid Separation on Primesep and Obelisc Mixed-Mode HPLC Columns
Effect of Buffer and Chemistry of Column Stationary Phase on Resolution of Neutral Compounds
HPLC Analysis of Cranberry Pomace Extract
HPLC Analysis of Gemfibrozil and Ibuprofen Using Mixed-Mode Chromatography
HPLC Analysis of Sulfate and Phosphate Ions on Primesep Columns
HPLC Analysis of Valproic Acid using Mixed-Mode Chromatography
HPLC Analysis of Zearalenone and Ochratoxin A on Primesep D Mixed-Mode Column
HPLC Retention of Diazacon on Primesep B2 Mixed-mode Anion-Exchange Column
HPLC Retention of Fentin Acetate
HPLC Separation of Carboxylic Acids
HPLC Separation of Chlorate and Bromate Ions
HPLC Separation of Diazinon on Obelisc and Primesep Mixed-Mode Columns
HPLC Separation of Folpet on Obelisc and Primesep Mixed-Mode Columns
HPLC Separation of Glyphosate Production Intermediates
HPLC Separation of Lactic Acid and Its Oligomers
HPLC Separation of m-Cresol Purple and Related Impurities
HPLC Separation of Nitroprusside and its Metabolites
HPLC Separation of Parabens and Benzoic Acid
HPLC Separation of Sulfate and Phosphate Ions on Mixed-Mode HPLC
HPLC Separation of Triadimefon on Obelisc and Primesep Columns
HPLC Separation of Two Vitamins: Different Polarity – Isocratic Methods
Improved Peak Shape of a Basic Compound on Primesep B2 Column
Malathion Analysis on Obelisc and Primesep Mixed-Mode HPLC Column
Monocrotophos Separation on Obelisc and Primesep Mixed-Mode HPLC Columns
Nabam Analysis on Mixed-Mode HPLC Columns
Phosphamidon Analysis Using Obelisc and Primesep Mixed-Mode HPLC Columns
Pirimicarb Analysis on Obelisc and Primesep Mixed-Mode HPLC Columns
Separation and Retention of Dextromethorphan Bromide in Mixed-Mode HPLC: Buffer Concentration Effect
Separation and Retention of Vitamins in Mixed-Mode HPLC
Separation of Maleic and Succinic Acid on Primesep B2 column
Separation Study of Fentin Acetate in Mixed-Mode HPLC
Primesep C is a reverse-phase analytical column with embedded complex-forming groups.
- Improves retention of positively charged compounds by forming a host-guest complex
- Retains neutral compounds by reverse-phase mechanism
- All mobile phases are LC-MS and preparative chromatography compatible
Primesep C columns are available in all standard dimensions
Column IDs: 22 mm, 10 mm, 4.6 mm, 3.2 mm, 2.1 mm, 1 mm, 0.5 mm, 0.25 mm
Column Lengths: 250 mm, 150 mm, 100 mm, 50 mm, 25 mm, 10 mm
Particles: 10 um, 5 um
Pores: 100 A
Primesep C Application Examples
HPLC Separation Of Mixture of Pyridylacetic Acids
Analysis of Codeine and Related Impurities in Drug Composition
Analysis of Codeine-Based Drug Composition. Effect of Buffer Concentration and Buffer pH
Analysis of Dextromethorphan-Based Composition
Analysis of Dextromethorphan-Based Drug composition. Effect on buffer pH
Analysis off Codeine-based Drug Composition. Effect of Buffer Concentration and Buffer PH
Bufferless Ion Separation (BLIS™) Chromatography of Aspartame: Organic Modifier Effect
Complex of Cations on Primesep C is Effected by Organic Modifier
Control of Cation Exchange Properties by pH of Primesep C Column
Effect of Buffer and Chemistry of Column Stationary Phase on Resolution of Neutral Compounds
Effect of pH on Retention of Basic Compounds on Primesep C Columns
HPLC Analysis of Alginic Acid in Heartburn Tablets
HPLC Retention of Fentin Acetate
HPLC Retention of Trimipramine
HPLC Separation of Acetaminophen, Phenylephrine, and Diphenhydramine
HPLC Separation of Acetylcholines
HPLC Separation of Antibiotics in Fish Production
HPLC Separation of Common Antibiotics in Fish Farming
HPLC Separation of Histamine and Phenethylamine
HPLC Separation of Isomers of Aminobutyric Acids
HPLC Separation of Lysine and Arginine from Other Amino Acids
HPLC Separation of NyQuil Active Ingredients
HPLC Separation of Polar Drugs with MS-compatible Method
HPLC Separation of Surfynol 420
Primesep C Column Retention Control
Reverse Elution Order in Separation of Alkali Cation
Separation of Acetaminophen and 4-Aminophenol on Primesep C
Separation of Alginic Acid and Related Products
Separation of NyQuil Active Ingredients on Primesep C
Separation of Quaternary Amines
Separation Study of Fentin Acetate in Mixed-Mode HPLC
Separation Study of Zemuron Active Ingredient in Mixed-Mode HPLC
Primesep D is a reverse-phase analytical column with embedded basic ion-pairing groups specifically designed for direct plasma analysis.
- Does not retain high-molecular weight plasma components
- Retains hydrophobic and acidic components
- All mobile phases are LC-MS and preparative chromatography compatible (working pH range from 1.5 to 4)
Primesep D columns are available in all standard dimensions
Column IDs: 22 mm, 10 mm, 4.6 mm, 3.2 mm, 2.1 mm, 1 mm, 0.5 mm, 0.25 mm
Column Lengths: 250 mm, 150 mm, 100 mm, 50 mm, 25 mm, 10 mm
Particles: 10 um, 5 um
Pores: 100 A
Primesep D Application Examples
HPLC Method for Analysis of Levothyroxine Sodium Tablets
Analysis of Antibiotic Josamycin and Related Impurities in Mixed-Mode Chromatography
Analysis of Antibiotic Marbofloxacin and Related Impurities in Mixed-Mode Chromatography
Analysis of Antibiotic Norfloxacin and Related Impurities in Mixed-Mode Chromatography
Analysis of Lactic Acid on Primesep D Column
Effect of Buffer and Chemistry of Column Stationary Phase on Resolution of Neutral Compounds
HPLC Analysis of Apple Extract using Mixed-Mode Chromatography
HPLC Analysis of Basic Drugs and Acidic Counter-Ions by Mixed-Mode Chromatography
HPLC Analysis of Bendamustine and Related Impurities
HPLC Analysis of Drugs in Saliva
HPLC Analysis of Gemfibrozil and Ibuprofen Using Mixed-Mode Chromatography
HPLC Analysis of Polysorbate in Mixture with Amino Acids and Sugar
HPLC Analysis of Sulfate and Phosphate Ions on Primesep Columns
HPLC Application for Analysis of EDTA
HPLC Retention of Ethylglucuronide
HPLC Retention of Fentin Acetate
HPLC Retention of N-Cyclohexylsulfamic Acid
HPLC Retention of Polysorbate on Primesep D Column
HPLC Separation of 3-Nitrophthalic and 4-Nitrophthalic Acids on Primesep D HPLC Column
HPLC Separation of Aminobiphenyls
HPLC Separation of Antibiotics of Group in Mixed-Mode Chromatography
HPLC Separation of Benzalkonium Chloride BCT 8358 on Primesep D column
HPLC Separation of Benzenesulfonamide and Sulfanilamide
HPLC Separation of Benzenesulfonic and p-Toluenesulfonic Acids
HPLC Separation of Cetylpyridinium
HPLC Separation of Chloride and Nitrate Ions
HPLC Separation of Cidofovirs Mixture
HPLC Separation of Dequalinium and Benzonitrile on Different Columns
HPLC Separation of Dihydroxybenzoic Acid
HPLC Separation of Hydrocortisone and Hydrocortisone’s Degradation Products
HPLC Separation of Organic Acids
HPLC Separation of Organics Acids
HPLC Separation of Phosphorous and Phosphoric Acids
HPLC Separation of Succinic and Methylmalonic Acids
HPLC Separation of Sulfate and Phosphate Ions on Mixed-Mode HPLC
HPLC Separation of Surfactants
HPLC Separation of Vanilmandelic, Hydroxyindoleacetic, and Homovanillic Acids
HPLC Separation of Vitamin C and Vitamin B2
Retention of Sialic Acid on Primesep D Column
Separation of Bisphenol A and Bisphenol A Glucoronide
Separation of Chlorate, Perchlorate, and Phosphonate Ions
Separation of Compounds in TCA Cycle on Primesep D Column
Separation of Phthalic Acids and Related Impurities
Separation Study of Fentin Acetate in Mixed-Mode HPLC
Primesep N is a normal-phase analytical column with embedded acidic groups.
- Primesep N has embedded acidic groups with a pKa of about 5
- Improves retention of basic compounds by cation-exchange mechanism at pH > 5
- Separates polar compounds by HILIC mechanism
- All mobile phases are LC-MS and preparative chromatography compatible
Primesep N columns are available in all standard dimensions
Column IDs: 22 mm, 10 mm, 4.6 mm, 3.2 mm, 2.1 mm, 1 mm, 0.5 mm, 0.25 mm
Column Lengths: 250 mm, 150 mm, 100 mm, 50 mm, 25 mm, 10 mm
Particles: 10 um, 5 um
Pores: 300 A, 100 A
Primesep N Application Examples
HPLC Separation Of Mixture of Pyridylacetic Acids
Effect of both pH and Organic Content on a Separation of Sugars, Amino
HILIC Retention of Uridine and Uracil on Sielc’s HILIC Columns
HILIC Separation of Ritonavir and Ribavirin
HPLC Analysis of Pseudoephedrine and Citric Acid on Primesep Column
HPLC Derivatization and Quantitative Analysis of Glycerol
HPLC Method for Separation of Urea and Hydrogen Peroxide
HPLC Separation of Acetic acid and Acetic Hydrazide
HPLC Separation of Aromatic Diamine Disulfate
HPLC Separation of Citric Acid and Phosphate Ions in HILIC Chromatography
HPLC Separation of Heparines and Pentosan
HPLC Separation of Lecithin and Soy lecithin on Primesep N Column
HPLC Separation of Morpholino Sulfates
HPLC Separation of Organic Acids in HILIC Mode on Primesep N Column
HPLC Separation of Saccharin and Sorbitol
HPLC Separation of Sulfamic and Sulfuric Acid on Primesep N HILIC Column
HPLC Separation of Uridine and Uracil
Simultaneous Analysis of Glucose, Sodium, Potassium and Calcium Ions
Primesep P is a reverse-phase analytical column with embedded aromatic and acidic ion-pairing groups.
- Improves retention of basic compounds by cation-exchange mechanism
- Separates aromatic compounds by difference in pi-pi interaction
- Retains neutral compounds by reverse-phase mechanism
- All mobile phases are LC-MS and preparative chromatography compatible
Primesep P columns are available in all standard dimensions
Column IDs: 22 mm, 10 mm, 4.6 mm, 3.2 mm, 2.1 mm, 1 mm, 0.5 mm, 0.25 mm
Column Lengths: 250 mm, 150 mm, 100 mm, 50 mm, 25 mm, 10 mm
Particles: 10 um, 5 um
Pores: 100 A
Primesep P Application Examples
HPLC Separation of Aromatic Boronic Acids
Primesep SB is a reverse-phase analytical column with strong embedded basic ion-pairing groups.
It contains a C18 carbon chain and basic quaternary amine groups.
- Improves retention of acidic compounds by anion-exchange mechanism
- Separates bases by ion-exclusion mechanism
- Retains neutral compounds by reverse-phase mechanism
- All mobile phases are LC-MS and preparative chromatography compatible (working pH range from 1.5 to 5)
Primesep SB columns are available in all standard dimensions
Column IDs: 22 mm, 10 mm, 4.6 mm, 3.2 mm, 2.1 mm, 1 mm, 0.5 mm, 0.25 mm
Column Lengths: 250 mm, 150 mm, 100 mm, 50 mm, 25 mm, 10 mm
Particles: 10 µm, 5 µm, 3 µm, 2.7 µm (solid core)
Pores: 100 A
Primesep SB Application Examples
HPLC Separation of Denatonium benzoate on Primesep SB Column
HPLC Determination of Vanillin on Primesep SB Column
HPLC Determination of Fosfomycin
HPLC Method for Analysis of Ascorbic acid and Sodium metabisulfite
HPLC Analysis of ACE Serum Active Ingredients
HPLC Analysis of Hop Extract (Beer Brewing)
HPLC Analysis of L-Cysteine-S-Sulfate on Primesep SB Column
HPLC Retention of EDTA in Sulfated CD
HPLC Retention of Ethylglucuronide
HPLC Retention of Sulfamic Acid on Primesep SB Mixed-Mode Column
HPLC Separation of 2-HEP and 2-HPP in the Presence of Methylcobalamin and Amino Acids
HPLC Separation of 5-Methyltetrahydrofolic Acid and Degradation Products
HPLC Separation of Alendronic, Ibandronic, Etidronic Acids
HPLC Separation of Ascorbic and Dehydroascorbic Acids
HPLC Separation of Epinephrine and Epinephrine Sulfonate
HPLC Separation of Methylphosphonic Acid and Related Products
HPLC Separation of Sodium, Chloride, Bromide, and Iodine
HPLC Separation of Sugar Phosphates
Separation of Nine Nucleotides by Mixed-Mode Chromatography
Separation of Nucleotide Monophosphates
Primesep 200 is a reverse-phase analytical column with embedded weak acidic ion-pairing groups
Improves retention of strong basic compounds by cation-exchange mechanism.
- Retains neutral compounds by reverse-phase mechanism
- Provides an additional interaction with polar molecules offering separation of isomers and structurally-related compounds
- All mobile phases are LC-MS and preparative chromatography compatible
Primesep 200 columns are available in all standard dimensions
Column IDs: 22 mm, 10 mm, 4.6 mm, 3.2 mm, 2.1 mm, 1 mm, 0.5 mm, 0.25 mm
Column Lengths: 250 mm, 150 mm, 100 mm, 50 mm, 25 mm, 10 mm
Particles: 10 um, 5 um
Pores: 100 A
Primesep 200 Application Examples
HPLC Determination of Perindopril
HPLC Method for Analysis of Metoprolol in Tablets
Separation of allo-D-isoleucine and L- Isoleucine
Bufferless Ion Separation (BLIS™) Chromatography of Amino Acids (2)
Bufferless Ion Separation (BLIS™) Chromatography of Amino Acids (1)
Effect of Buffer and Chemistry of Column Stationary Phase on Resolution of Neutral Compounds
Generic Screening Method for Complex Mixtures
HILIC Separation of Hydroxypiperidine and Impurities
HPLC Analysis of Apple Extract using Mixed-Mode Chromatography
HPLC Analysis of Bendamustine and Related Impurities
HPLC Analysis of Citrulline and Arginine on Primesep Columns
HPLC Analysis of Piperazine on Primesep Columns
HPLC Analysis of the Catecholamine Pathway
HPLC Application for Determination of Melamine in Baby Formula
HPLC Application for Separation of Nucleotide Bases
HPLC Method for Analysis of Amphetamine
HPLC Method for Analysis of Azor
HPLC Method for Analysis of B-Estadiol
HPLC Method for Analysis of Bupivacaine
HPLC Method for Analysis of Bupropion
HPLC Method for Analysis of Butorphanol
HPLC Method for Analysis of Bystolic
HPLC Method for Analysis of Celebrex
HPLC Method for Analysis of Cetirizine
HPLC Method for Analysis of Cocaine
HPLC Method for Analysis of Crestor
HPLC Method for Analysis of Diclofenac
HPLC Method for Analysis of Etodolac
HPLC Method for Analysis of Fenofibrate
HPLC Method for Analysis of Fluconazole
HPLC Method for Analysis of Fluoxetine
HPLC Method for Analysis of Hydrochlorothiazide
HPLC Method for Analysis of Hydrocortisone
HPLC Method for Analysis of Hyoscyamine
HPLC Method for Analysis of Indapamide
HPLC Method for Analysis of Indomethacin
HPLC Method for Analysis of Ketoprofen
HPLC Method for Analysis of Lidocaine
HPLC Method for Analysis of Lipitor
HPLC Method for Analysis of Loratadine
HPLC Method for Analysis of MDA
HPLC Method for Analysis of MDMA
HPLC Method for Analysis of Meclizine
HPLC Method for Analysis of Methoxyphenamine
HPLC Method for Analysis of Montelukast
HPLC Method for Analysis of Nizatidine
HPLC Method for Analysis of Ofloxacin
HPLC Method for Analysis of Ondansetron
HPLC Method for Analysis of Paxil CR
HPLC Method for Analysis of Pindolol
HPLC Method for Analysis of Pioglitazone
HPLC Method for Analysis of Prednisolone
HPLC Method for Analysis of Principen
HPLC Method for Analysis of Procainamide Hydrochloride
HPLC Method for Analysis of Propranolol
HPLC Method for Analysis of Strychnine
HPLC Method for Analysis of Tamsulosin
HPLC Method for Analysis of Tetracaine
HPLC Method for Analysis of Tramadol
HPLC Method for Analysis of Trimipramine
HPLC Method for Analysis of Uloric
HPLC Method for Analysis of Valsartan
HPLC Method for Analysis of Verapamil
HPLC Method for Analysis of Vicodin
HPLC Retention of Aminopyrazole
HPLC Separation of 1-Methylhistidine and 3-Methylhistidine on Primesep 200
HPLC Separation of 8 Generic Compounds on Primesep Columns
HPLC Separation of Acidic, Basic, and Neutral Compounds
HPLC Separation of Active Compounds in Drug Formulation
HPLC Separation of Agricultural Compounds Found in Tea
HPLC Separation of Amino Acids in Zero Organic Mode on Primesep 200 column
HPLC Separation of Caffeine and Phenylephrine
HPLC Separation of Catecholamines
HPLC Separation of Citrulline and Arginine
HPLC Separation of Codeine, Oxycodone, and Hydrocodone
HPLC Separation of Compounds of Catecholamine Pathway
HPLC Separation of Cotinine Metabolites
HPLC Separation of Creatine, Creatinine and Histidine
HPLC Separation of Creatine, Creatinine and Histidine with MS Conditions
HPLC Separation of DOPAC, Homovanillic Acid in Dopamine on the Primesep 200 Column
HPLC Separation of Epinephrine and Related Impurities
HPLC Separation of Fungicides in a Green Tea Matrix
HPLC Separation of Gentamicins
HPLC Separation of Guaifenesin and Terbutaline
HPLC Separation of Histamine and Phenethylamine
HPLC Separation of Neurotransmitters
HPLC Separation of Nucleobases (2)
HPLC Separation of Octopamine and Synephrine on Primesep 200 Column
HPLC Separation of Polar Compounds
HPLC Separation of Succinylcholine and Choline Using a Primesep 200 Column
HPLC Separation of Tetracyclines
HPLC Separation of Toluidine Isomers
Mixed-Mode HPLC Separation of Tertiary Amines on Primesep 200 Column
Neutral, Base, and Acid on Primesep 200 Column
Retention Characteristics of Betaine in Mixed-Mode HPLC
Separation of Deoxyribo Nucleic Acid
Separation of Diacid Hydrophobic and Ion Exchange Modes
Separation of Epinephrine Norepinephrine
Separation of Simple Tertiary Amines
Separation of Sodium, Tetramethylammonium and Tetrabutylammonium on Primesep 200 Column
Separation of Toluidine and Aminobiphenyl Isomers
Primesep 500 is a reverse-phase analytical column with embedded acidic ion-pairing groups
- Primesep 500 has an embedded carboxilic acid with a pKa of about 5
- Improves retention of basic compounds by cation-exchange mechanism at pH > 5
- Separates acids by ion-exclusion mechanism at a mobile phase pH > 5
- Retains basic compounds, as any RP column, at pH < 5
- Retains neutral compounds by reverse-phase mechanism
- All mobile phases are LC-MS and preparative chromatography compatible
Primesep 500 columns are available in all standard dimensions
Column IDs: 22 mm, 10 mm, 4.6 mm, 3.2 mm, 2.1 mm, 1 mm, 0.5 mm, 0.25 mm
Column Lengths: 250 mm, 150 mm, 100 mm, 50 mm, 25 mm, 10 mm
Particles: 10 um, 5 um
Pores: 100 A
Primesep 500 Application Examples
HPLC Separation of Alkyl Sulfonic Acids
HPLC Separation of Glucosamine from Chondroitin Sulfate
Obelisc
Obelisc N is a column with very polar characteristics that works well for polar and charged analytes
- Obelisc N offers both positively and negatively charged groups to interact with positively or negatively charged analytes
- Multiple separation modes (NP, HILIC, IE)
- In HILIC mode, Obelisc N offers different selectivity form other HILIC or bare silica columns
- Mass spec, ELSD, preparative and low UV (<220 nm) compatible, low concentration buffers
Obelisc N columns are available in all standard dimensions
Column IDs: 22 mm, 10 mm, 4.6 mm, 3.2 mm, 2.1 mm, 1 mm, 0.5 mm, 0.25 mm
Column Lengths: 250 mm, 150 mm, 100 mm, 50 mm, 25 mm, 10 mm
Particles: 10 um, 5 um
Pores: 100 A
Comparison of Obelisc N, SeQuant?® HILIC, and Bare Silica
Effect of both pH and Organic Content on a Separation of Sugars, Amino Acids, and Carboxylic Acids
Effect of Buffer on HPLC Separation of Buffers
HILIC Retention of 1,5-Naphthalenedisulfonic Acid on Obelisc N Mixed-Mode HILIC Columns
HILIC Separation of Aromatic Acids
HILIC Separation of Carboxylic Acids
HILIC Separation of Carboxymethylcysteine and Betaine
HILIC Separation of Common Preservatives – Citric Acid, Ascorbic Acid and EDTA
HILIC Separation of Epinephrine and Epinephrine Sulfonate
HILIC Separation of Polyethylene Glycol
HILIC Separation of Sugars on Obelisc N
HILIC Separation of Surfactant Triton X-100
HILIC Separation of Vitamins Group B
HPLC Analysis of TFA
HPLC Analysis of Trifluoroacetic and Acetic Acid on Obelisc N Mixed-Mode HPLC Column
HPLC Retention of Sulfuric Acid on Obelisc N Column
HPLC Separation of alpha-Aminobutyric, beta-Aminobutyric, and gamma-Aminobutyric acids on Obelisc N
HPLC Separation of Glyphosate Reaction Intermediates and Impurities
HPLC Separation of Nucleic Bases at pH 4 and 5 on Obelisc N
HPLC Separation of Polar and Hydrophobic Drugs on Obelisc R and N
HPLC Separation of Potassium, Perchlorate, Methanesulfonic, Chloride, Bromide, and Nitrate Ions on Obelisc N
HPLC Separation of Vitamin C, Vitamin Group B, and Related Impurities
Method for Analysis of Glyphosate in Apple Juice, Cranberry Juice, Mango Juice and Green Tea
Retention of Azide Ion on Obelisc N Column
Retention of N-Nitrosarcosine on Obelisc N Column
Retention of Taurine on Obelisc N Column
Retention of TFA on Atlantis and Obelisc N
Separation of Serotonin, Dopamine, and Related Compounds
Separation of Trisaccharides on SIELC Columns
Simultaneous Determination of Sodium and Sulfate Ions on Obelisc N Mixed-mode HILIC Column
Simultaneous Separation of Melamine and Cyanuric Acid
Obelisc R is a reverse-phase analytical column that can be used in traditional, reversed-phase type applications
- Due to the presence of ionic groups and a long hydrophobic chain, Obelisc R offers additional retention and tuning that is not available with traditional reversed-phase columns
- Multiple separation modes (RP, NP, IE)
- Mass spec, ELSD, preparative and low UV (<220 nm) compatible, low concentration buffers
Obelisc R columns are available in all standard dimensions
Column IDs: 22 mm, 10 mm, 4.6 mm, 3.2 mm, 2.1 mm, 1 mm, 0.5 mm, 0.25 mm
Column Lengths: 250 mm, 150 mm, 100 mm, 50 mm, 25 mm, 10 mm
Particles: 10 um, 5 um
Pores: 100 A
Alachlor Separation on Obelisc and Primesep HPLC Columns
Analysis of 2,4,5-Trichlorophenoxyacetic acid on Primesep and Obelisc HPLC Columns
Analysis of Antibiotic Dapsone and Related Impurities in Mixed-Mode Chromatography
Analysis of Antibiotic Flumequine and Related Impurities in Mixed-Mode Chromatography
Analysis of Antibiotic Josamycin and Related Impurities in Mixed-Mode Chromatography
Analysis of Antibiotic Marbofloxacin and Related Impurities in Mixed-Mode Chromatography
Analysis of Antibiotic Norfloxacin and Related Impurities in Mixed-Mode Chromatography
Analysis of Antibiotic Tylosin and Related Impurities in Mixed-Mode Chromatography
Analysis of Naled on Primesep and Obelisc Mixed-Mode HPLC Columns
Benfluralin Analysis on Obelisc R HPLC Column
Captan Separation on Obelisc and Primesep Mixed-Mode HPLC Columns
Captan Separation on Obelisc R HPLC Column
Carbofuran Separation on Obelisc R HPLC Column
Carbofuran Separation on Primesep and Obelisc Mixed-Mode HPLC Columns
Chlorpyrifos-methyl Separation Using Obelisc and Primesep Columns
Comparison of Obelisc R to C18 columns for the Separation of Aminopyridine Isomers
Comparison of the Separation of Polar Drugs on Obelisc R and Zorbax SB-AQ
Dicamba Analysis on Primesep and Obelisc Mixed-Mode HPLC Columns
Dichlorvos Separation on Obelisc and Primesep Mixed-Mode Columns
Diphanamid Separation on Primesep and Obelisc Mixed-Mode HPLC Columns
Effect of mobile phase composition on retention of 3 compounds on Obelisc R
HPLC Analysis of Active Drug in a Formulation
HPLC Analysis of Alachlor
HPLC Analysis of Chlorpyrifos-methyl
HPLC Analysis of Components of Ionic Liquids by Mixed-Mode Chromatography
HPLC Analysis of Diazinon
HPLC Analysis of Dichloran
HPLC Analysis of Diphenamid
HPLC Analysis of Malathion
HPLC Analysis of Monocrotopos
HPLC Analysis of Naled
HPLC Separation of Acidic Drugs and Counter-Ions on Obelisc R Column
HPLC Separation of Amino Acids on Obelisc R Column
HPLC Separation of Amino Acids, Bases, Acids, and Neutrals on Obelisc R
HPLC Separation of Aromatic Compounds (PAH) on Mixed-Mode and Reverse Phase Columns
HPLC Separation of Aspartic Acid and Asparagine on Obelisc R Column
HPLC Separation of Diazinon on Obelisc and Primesep Mixed-Mode Columns
HPLC Separation of Drugs in Advil Allergy and Sinus
HPLC Separation of Drugs in Tylenol Cold and Cough Remedies
HPLC Separation of Folpet on Obelisc and Primesep Mixed-Mode Columns
HPLC Separation of Methyl Paraben, Benzonitrile, Propyl Paraben, and Toluene on Mixed-Mode and Reverse Phase Columns
HPLC Separation of Neurotransmitters and Related Drugs
HPLC Separation of Polar and Hydrophobic Drugs on Obelisc R and N
HPLC Separation of Prednisolone, Atrolactic Acid, and Ibuprofen on Mixed-Mode Column
HPLC Separation of Terbufos on Obelisc Mixed-Mode Columns
HPLC Separation of Triadimefon on Obelisc and Primesep Columns
HPLC Separation of Tylosin and Albendazole
HPLC Separation Paraquat and Diquat on Obelisc R
Malathion Analysis on Obelisc and Primesep Mixed-Mode HPLC Column
Monocrotophos Separation on Obelisc and Primesep Mixed-Mode HPLC Columns
Nabam Analysis on Mixed-Mode HPLC Columns
Phosphamidon Analysis Using Obelisc and Primesep Mixed-Mode HPLC Columns
Pirimicarb Analysis on Obelisc and Primesep Mixed-Mode HPLC Columns
Pirimicarb Separation on Obelisc R HPLC Column
Retention of Amikacin on Obelisc R Column
Separation of Antibiotics in Mixed-mode chromatography
Separation of Chlorate, Perchlorate, and Phosphonate Ions
Separation of Drugs in Mixed-Mode HPLC
Separation of Nicotinamide and Related Substances
Separation of Paraquat, Diguat, and Glyphosate on Obelisc R Column
Simultaneous Separation of Melamine and Cyanuric Acid
Terbufos Analysis on Obelisc R HPLC Column
HPLC Method for Analysis of Desmosine
HPLC Method for Analysis of Pentosidine