| IC and HPLC Technical Notes |
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TN 707: Injection Routines Explained: Effectively Using a User Defined Program |
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TN 519: Extending the Performance of LC/MS to Nonvolatile Buffers with the AQA |
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TN 512: MS Detection with the AQA for LC and IC Using Atmospheric Pressure Ionization Techniques |
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TN 113: Practical Guidance for Using Capillary Anion Chromatography |
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TN 112: Determintion of Trace Anions in Ultrapure Water Using Capillary Ion Chromatography |
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TN 111: Automatic Resampling Using Chromeleon AutoDilution, Two Injection Loops, and the Dionex AS-DV Autosampler |
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TN 110: Carbohydrate Determination by HPAE-PAD with Disposable Au on PTFE Working Electrodes |
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TN 109: Analysis of 2-Aminobenzamide (AB) Labeled Glycans Using HPLC with Fluorescence Detection |
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TN 108: Reliable Solvent Mixing in UHPLC |
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TN 107: Automated In-Needle Derivatization Applying a User-Defined Program for the Thermo Scientific Dionex WPS-3000 Split-Loop Autosampler |
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TN 106: Ultrahigh-Efficiency LC-MS/MS Separations of Proteolytic Digests on PepSwift Monolithic Columns |
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TN 100: Electrochemical Detector Loss of Response |
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TN 99: Electrochemical Detector Background Currents and Baseline Noise |
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TN 92: Combining Fluorescence Detection with UHPLC: An Overview of the Technical Requirements |
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TN 90: Mass Sensitivity of Capillary IC Systems Explained |
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TN 89: Determination of Water- and Fat-Soluble Vitamins by HPLC |
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TN 88: UHPLC Method Transfer at Its Best—A Feature Update of the Dionex RSLC Method Transfer Calculator |
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TN 86: Miniaturized Nano HPLC for Increased MS Sensitivity |
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TN 85: Automated Two-Dimensional Separation of Peptides by Ion-Pair Reversed-Phase High-Performance Liquid Chromatography-Electrospray Ionization-Mass Spectrometry at High and Low pH |
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TN 84: Automatic Dilutions Using Chromeleon AutoDilution and Two Injection Loops |
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TN: 83 Automatic Vial-to-Vial Dilutions Using Chromeleon AutoDilution and the ICS-3000 AS Autosampler with the Sample Prep Option |
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TN 82: ProSwift RP-10R 1 × 50 mm Monolithic Columns for Fast, High-Peak-Capacity LC Separations of Intact Proteins |
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TN: 81 Automatic Dilutions Using Chromeleon AutoDilution and the Partial Loop Injection Capability of the ICS-3000 As Autosampler |
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TN 80: Reduce Eluent Consumption by Optimizing UltiMate 3000 Quaternary Analytical Systems for Small Column Volumes |
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TN 79: Two-Dimensional LC Protein Separation on Monolithic Columns in a Fully Automated Workflow |
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TN 78: Novel Off-line Multidimensional LC Method for Separation and Tandem MS Detection of Tryptic Peptides |
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TN 77: Automated Off-Line 2D-LC: A Powerful Tool for the Separation of Complex Samples with the UltiMate 3000 Proteomics MDLC System |
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TN 76: The UltiMate 3000 MudPit Solution |
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TN 75: Easy Method Transfer from HPLC to RSLC with the Dionex Method Speed-Up Calculator |
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TN 74: High Peak Capacity Nano LC Peptide Separations Using Long Packed Columns |
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TN 73: Determination of Perfluorooctanoic Acid (PFOA) and Perfluorooctanesulfonic Acid (PFOS) in Water Samples Using On-Line Sample Concentration, Reversed-Phase Liquid Chromatography, and Suppressed Conductivity Detection |
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TN 72: Reduced Solvent Consumption Mode Allows Continuous Nano LC Operation for One Month |
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TN 71: Eluent Preparation for High-Performance Anion-Exchange Chromatography with Pulsed Amperometric Detection |
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TN 70: Data Reporting in Chromeleon |
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TN 67: Instrument Control and Data Acquisition with Chromeleon |
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TN 65: Using Chromeleon in a Networked Environment |
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TN 64: Using the AS Automated Sampler in the Simultaneous, Sequential, and Concentrate Modes |
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TN 63: Peak Identification and Estimation of Percent Purity using HPAE with 3-D Amperometry |
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TN: 62 Reducing Carbonate Interference in Anion Determinations with the Carbonate Removal Device (CRD) |
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TN 61: UltiMate 3000 — Preconcentration on a 75-μm i.d. x 1 5 cm PepMap 1 00 (C18) Nanocolumn |
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TN 60: UltiMate 3000: Direct Sample Injection onto a 75-um I.D. PepMap 100 (C18) Column |
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TN 57: Automated System Suitability Testing with Chromeleon |
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TN 55: Screening of Sample Matrices and Individual Matrix Ingredients for Suitability in AAA-Direct |
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TN 54: Using Chromeleon Chromatography Management Software to Comply with 21 CFR Part 11 |
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TN 53: Determination of Glycoprotein Monosaccharide Composition by HPAE-PAD Using On-Line Electrolytically Generated Eluents |
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TN 50: Determination of the Amino Acid Content of Peptides
by AAA-Direct |
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TN 48: Determination of Trace Anions in High-Purity Water by High-Volume Direct Injection with the EG40 |
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TN 47: Achieving Low Baseline Noise for Anion
Determination by Suppressed Conductivity
Using Carbonate Eluents |
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TN 46: Determination of Trace Anions in Concentrated Glycolic Acid |
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TN 45 Determination of Trace Anions in Hydrofluoric Acid, Ammonium Fluoride, and a Buffered Oxide Etchant |
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TN 44: The Determination of Trace Anions in Concentrated
Phosphoric Acid |
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TN 43: Using Smoothing Algorithms to Reduce Baseline Noise in Chromatography |
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TN 42: Glycoprotein Oligosaccharide Analysis Using High-Performance Anion-Exchange Chromatography |
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TN 41: Analysis of Sialic Acids Using High-Performance Anion-Exchange Chromatography |
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TN 30: Monosaccharide and Oligosaccharide Analysis of Glycoproteins Electrotransferred onto Polyvinylidene Fluoride (PVDF) Membranes |
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TN 40: Glycoprotein Monosaccharide Analysis Using High-Performance Anion-Exchange Chromatography with Pulsed Amperometric Detection (HPAE-PAD) |
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TN 36: Analysis of Exoglycosidase Digestions of N-Linked Oligosaccharides Using HPAE-PAD |
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TN 29: Automated Sample Preconcentration of Metals in Drinking Water for Inductively Coupled Argon Plasma (ICAP) Spectroscopy |
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TN 28: Ion Chromatography/Inductively Coupled Argon Plasma (IC/ICAP): A New Technique for Trace Metal Determinations |
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TN 27: Determination of Lanthanide Metals in Digested Rock Samples by Chelation Ion Chromatography |
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TN 26: Determination of Cr(VI) in Water, Waste Water, and Solid Waste Extracts |
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TN 25: Determination of Transition Metals in Complex Matrices by
Chelation Ion Chromatography |
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TN 24: Determination of Chromium by Ion Chromatography |
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TN 23: Ion Chromatography of Lanthanide Metals |
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TN 21: Optimal Settings for Pulsed Amperometric Detection of Carbohydrates Using the Dionex ED40 Electrochemical Detector |
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TN 20: Analysis of Carbohydrates by High Performance Anion Exchange Chromatography with Pulsed Amperometric Detection (HPAE-PAD) |
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TN 19: Gradient Elution In Ion Chromatography:
Anion Exchange With Conductivity Detection |
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TN 16: Eluent Preparation for First-Generation Dionex Columns |
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TN 12: Methods Development Using Ion-Pair Chromatography with Suppressed Conductivity Detection |
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TN 10: Determination of Transition Metals by Ion Chromatography |
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TN 9: Conductivity Detection, Conductance Laws and Electrolyte Equilibria |
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TN 8:The Use of Concentrator Columns in Ion Chromatography |
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