| Application Brief |
Municipal Drinking Water Analysis by Fast IC |
| Application Brief |
Analysis of Nine N-Nitrosamines Using Liquid Chromatography—High-Resolution, Accurate-Mass Mass Spectrometry |
| Application Brief |
Determination of Hexavalent Chromium in Dyes |
| Application Brief |
Low-Cost Determination of Anions in Municipal Drinking Water Using EPA Method 300.0 |
| Application Brief |
Determination of Anions in Municipal Drinking Water by Fast IC Using a Hydroxide Eluent |
| Application Brief |
Cost-Effective Determination of Inorganic Anions and Cations in Municipal Drinking Water Using Capillary Ion Chromatography |
| Application Brief |
Automated Solid-Phase Extraction (SPE) of Dioxins and Furans in Surface Water |
| Application Brief |
Ion Chromatography Municipal Water Analysis Applications Summary |
| Application Brief |
Municipal Drinking Water Analysis by Fast IC |
| Application Brief |
Measurement of Environmental Estrogens in Water Using a Gradient HPLC-EC-UV Method |
| Application Brief |
Fast determination of low mass, inorganic cations in a ground water sample using IC-MS |
| Application Note |
Nitrate in Surface Water and Wastewater by Colorimetry |
| Application Note |
Fluorescence Method Development Handbook |
| Application Note |
Discovery of Emerging Disinfection By-Products in Water Using Gas Chromatography Coupled with Orbitrap-based Mass Spectrometry |
| Application Note |
GC-IRMS: δ13C Analysis of PAHs in Soil and Sediment Samples using High Resolution GC Coupled with Isotope Ratio MS |
| Application Note |
Determination of Polychlorinated Biphenyls (PCBs) in Soils and Solid Waste by Accelerated Solvent Extraction and GC-MS/MS |
| Application Note |
Fully Automated, Intelligent, High-Throughput Elemental Analysis of Drinking Waters Using SQ-ICP-MS |
| Application Note |
Qualitative and Quantitative Analysis of Contaminants of Emerging Concern in Biosolids Using a Dilute and Shoot UHPLC-Orbitrap MS Method |
| Application Note |
Determination of Total Petroleum Hydrocarbons in Rubble and Soils by Accelerated Solvent Extraction and GC-FID |
| Application Note |
Fast Screening and Quantification of Pesticide Residues Using a Comprehensive LC-MS Solution: The Pesticide Explorer Collection – Standard Quantitation |
| Application Note |
Determination of Chlorophenols in Water According to U.S. EPA Method 528 |
| Application Note |
Improved Determination of Trace Perchlorate in Drinking Water Using 2D-IC |
| Application Note |
Fast Analysis of Anions in Drinking Water by Ion Chromatography |
| Application Note |
Determination of Sodium at the Parts-Per-Trillion Level in the Presence of High Concentrations of Ethanolamine in Power Plant Waters |
| Application Note |
Determination of Metal Cyanides |
| Application Note |
Determination of Calcium and Magnesium in Brine |
| Application Note |
Determination of Trace Transition Metals in Reagent Grade Acids, Bases, Salts, and Organic Solvents Using Chelation Ion Chromatography |
| Application Note |
Ion Chromatography in the Pharmaceutical Industry |
| Application Note |
Determination of Iodide in Seawater and Other Saline Matrices Using a Reagent-Free Ion Chromatography System with Suppressed Conductivity and UV Detections |
| Application Note |
Determination of Common Anions and Organic Acids Using lon Chromatography-Mass Spectrometry |
| Application Note |
Determination of Total Phosphorus Using Two-Dimensional lon Chromatography |
| Application Note |
Determination of Total Phosphorus in Wastewater Using Care's Reagent and lon Chromatography |
| Application Note |
Monitoring Inorganic Anions and Cations During Desalination |
| Application Note |
Trace Level Determination of Bromate in Ozonated Drinking Water Using Ion Chromatography |
| Application Note |
Automated Determination of Gasoline Range Organics (GRO) in Water Via Valve-and-Loop Headspace GC |
| Application Note |
Detection of Organochlorine Pesticides by GC-ECD Following U.S. EPA Method 8081 |
| Application Note |
Analysis of Alkylphenols Using GC-MS/MS and Automated SRM Development |
| Application Note |
Hydrocarbon Oil Index Determination in Water Using a Simple, Cost-Effective System |
| Application Note |
Determination of Cations in Hydraulic Fracturing Flowback Water from the Marcellus Shale |
| Application Note |
Determination of Total Nitrogen and Phosphorus in Wastewaters by Alkaline Persulfate Digestion Followed by IC |
| Application Note |
Determination of Anions and Cations in Produced Water from Hydraulic Fracturing |
| Application Note |
Rapid Determination of Nitrobenzene in Drinking Water Using Automated SPE with GC-ECD |
| Application Note |
Determination of Chloride and Sulfate in Water and Soil |
| Application Note |
Determination of Hexavalent Chromium Cr(VI) in Drinking Water by Suppressed Conductivity Detection |
| Application Note |
Determination of Anions and Cations in Process Water from Steam Assisted Gravity Drainage Oil Sands Extraction |
| Application Note |
Analysis of Low Concentrations of Perchlorate in Drinking Water and Ground Water by Ion Chromatography |
| Application Note |
Determination of Transition Metals at PPT Levels in High-Purity Water and SC2 (D-clean) Baths |
| Application Note |
Determination of Low Concentrations of Perchlorate in Drinking and Groundwaters Using Ion Chromatography |
| Application Note |
Determination of Inorganic Anions in Wastewater by lon Chromatography |
| Application Note |
Determination of Inorganic Oxyhalide Disinfection Byproduct Anions and Bromide in Drinking Water |
| Application Note |
Determination of Inorganic Cations and Ammonium in Environmental Waters by Ion Chromatography |
| Application Note |
Determination of Perchlorate in High Ionic Strength Fertilizer Extracts by Ion Chromatography |
| Application Note |
Determination of Chlorite, Bromate, Bromide, and Chlorate in Drinking Water by Ion Chromatography with an On-Line-Generated Postcolumn Reagent for Sub-μg/L Bromate Analysis |
| Application Note |
Determination of Perchlorate in Environmental Waters by Ion Chromatography Coupled with Electrospray Mass Spectrometry (IC-MS) |
| Application Note |
Determination of Inorganic Anions in Environmental Water Using a Hydroxide-Selective Column |
| Application Note |
Determination of Trace Sodium and Transition Metals in Power Industry Samples by Ion Chromatography with Nonsuppressed Conductivity Detection |
| Application Note |
Determination of Metal Cyanide Complexes by Ion Chromatography with On-Line Sample Preconcentration and UV Absorbance Detection |
| Application Note |
Determination of Trace Concentrations of Oxyhalides and Bromide in Municipal and Bottled Waters Using a Hydroxide-Selective Column with a Reagent-Free Ion Chromatography System |
| Application Note |
Determination of Trace Concentrations of Disinfection Byproduct Anions and Bromide in Drinking Water Using Reagent-Free Ion Chromatography Followed by Postcolumn Addition of o-Dianisidine for Trace Bromate Analysis |
| Application Note |
Determination of Disinfection Byproduct Anions and Bromide in Drinking Water Using a Reagent-Free Ion Chromatography System Followed by Postcolumn Addition of an Acidified On-Line Generated Reagent for Trace Bromate Analysis |
| Application Note |
Determination of Azide in Aqueous Samples by Ion Chromatography with Suppressed Conductivity Detection |
| Application Note |
Direct Determination of Cyanide in Drinking Water by Ion Chromatography with Pulsed Amperometric Detection |
| Application Note |
Determining Sub-ppb Perchlorate in Drinking Water Using Preconcentration/ Matrix Elimination Ion Chromatography with Suppressed Conductivity Detection by U.S. EPA Method 314.1 |
| Application Note |
Improved Determination of Trace Concentrations of Perchlorate in Drinking Water Using Preconcentration with Two-Dimensional Ion Chromatography and Suppressed Conductivity Detection |
| Application Note |
Determination of Trace Concentrations of Chlorite, Bromate, and Chlorate in Bottled Natural Mineral Waters |
| Application Note |
Determination of Sub-μg/L Bromate in Municipal and Natural Mineral Waters Using Preconcentration with Two-Dimensional Ion Chromatography and Suppressed Conductivity Detection |
| Application Note |
Analysis of Low Level Pyrethroid Pesticides in Water |
| Application Note |
Analysis of 18 Polycyclic Aromatic Hydrocarbons in Soil Using the QuEChERS Method |
| Application Note |
Analysis of Organochlorine Pesticides Standard Using Conventional GC Instrumentation |
| Application Note |
Determination of Bromate in Bottled Mineral Water Using the CRD 300 Carbonate Removal Device |
| Application Note |
Determination of Total Cyanide in Municipal Wastewater and Drinking Water Using Ion-Exclusion Chromatography with Pulsed Amperometric Detection (ICE-PAD) |
| Application Note |
Determination of Chelating Agents in Drinking Water and Wastewater Samples |
| Application Note |
Direct Determination of Fluoroacetate in Water by IC-MS |
| Application Note |
Determination of Organic Acids in Wastewater Using lon-Exclusion Chromatography and On-Line Carbonate Removal |
| Application Note |
On-line Enrichment HTLC/MS/MS Assay for Multiple Classes of Antibiotics in Environmental Water Sources |
| Application Note |
Analysis of Regulated Pesticides in Drinking Water Using Accela and EQuan |
| Application Note |
Determination of Sulfonamide Antibiotics inWastewater by Liquid Chromatography — Tandem Mass Spectrometry |
| Application Note |
Analysis of Chloroacetanilide and Other Acetamide Herbicide Degradates in Drinking Water by LC-MS/MS |
| Application Note |
Arsenic in Natural Waters by Graphite Furnace Atomic Absorption using EPA Method 200.9 |
| Application Note |
Speciation analysis of Cr (III) and Cr (VI) in drinking waters using anion exchange chromatography coupled to the iCAP Q ICP-MS |
| Application Note |
Drinking Water Compliance Monitoring using US EPA Method 200.8 |
| Application Note |
EU Water Analysis Using iCAP 7400 ICP-OES Duo |
| Application Note |
Determination of Elemental Components of Fracking Flowback Solutions from Marcellus Shale, USA, Using ICP-OES |
| Application Note |
Analysis of Triazine Pesticides in Drinking Water Using LC-MS/MS (EPA Method 536.0) |
| Application Note |
Analysis of Sulfonamides in River Water using EQuan, an Online Concentration Analysis System |
| Application Note |
LC-MS/MS Analysis of Herbicides in Drinking Water at Femtogram Levels Using 20mL EQuan Direct Injection Techniques |
| Application Note |
Analysis of Haloacetic Acids in Drinking Water by IC-MS/MS |
| Application Note |
Detection of Pharmaceuticals, Personal Care Products, and Pesticides in Water Resources by APCI-LC-MS/MS |
| Application Note |
Analysis of Triazine Herbicides in Drinking Water Using LC-MS/MS and TraceFinder Software |
| Application Note |
Analysis of Glyphosate and AMPA in Environmental Water by Ion Chromatography Electrospray Tandem Mass Spectrometry (IC-ESI-MS/MS) |
| Application Note |
Analysis of Basic and Acidic Pharmaceutical Products in Drinking Water Using Online Sample Preparation and LC-MS/MS |
| Application Note |
Latest Advances in the Analysis of Volatile Organic Compounds by Single Quadrupole GC-MS |
| Application Note |
Determination of Trace Anions and Key Organic Acids in High Purity, Ammoniated, and Borated Waters Found in Steam Cycle Power Plants |
| Application Note |
Quantification of Haloacetic Acids in Tap Water Using a Dedicated HAA LC Column with LC-MS/MS Detection |
| Application Note |
EPA Method 557 – Analysis of Haloacetic Acids, Dalapon, and Bromate in Drinking Water by IC-MS/MS |
| Application Note |
EPA Method 543 - Quantitation of Organic Pesticides in Drinking Water Using Online Pre-concentration/Solid Phase Extraction and Tandem Mass Spectrometry |
| Application Note |
Automated Total Oxidized Nitrogen Method Using Vanadium as Reductant with Correlation to Cadmium and Hydrazine Reductant Methods in Sea, Natural, and Waste Waters |
| Application Note |
Enzymatic Analysis of Urea in Swimming Pool Water |
| Application Note |
Determination of Trace Metals in Water Miscible Organic Solvents by Ion Chromatography/Inductively Coupled Argon Plasma Spectroscopy (IC/ICAP) |
| Application Note |
Determination of Trace Transition Metals in Reagent Grade Acids, Bases, and Salts Using Ion Chromatography/Inductively Coupled Argon Plasma Spectroscopy (IC/ICAP) |
| Application Note |
Elimination of Iron and Aluminum as Matrix Interferences for Determination of Transition Metals Using Chelation Ion Chromatography |
| Application Note |
Determination of Dissolved Hexavalent Chromium in Drinking Water, Groundwater and Industrial Wastewater Effluents by Ion Chromatography |
| Application Note |
US EPA Method 527 — Determination of Pesticides and Flame Retardants in Drinking Water |
| Application Note |
EPA Method 525.2: Extraction of Semivolatile Organic Compounds from Water Using AutoTrace 280 Solid-Phase Extraction Cartridges |
| Application Note |
Determination of Trace Cations in Power Plant Waters Containing Morpholine |
| Application Note |
Analysis of Dithiocarbamate Pesticides by GC-MS |
| Application Note |
Analysis of Triazine Pesticides in Wastewater by GC/MS |
| Application Note |
Measuring pH in Surface Water |
| Application Note |
Determination of Additives and Byproducts in an Acid Copper Plating Bath by Liquid Chromatography |
| Application Note |
Low-Level PAH Analysis using the Finnigan Surveyor HPLC System with PDA Detection |
| Application Note |
Determination of Organic Acids in Wastewater Using Ion-Exclusion Chromatography and On-Line Carbonate Removal |
| Application Note |
Combining Hardware, Software, and Chromatography to Improve the GC/MS Analysis of Semi-Volatile Compounds |
| Application Note |
Consolidated GC-MS/MS Analysis of OCPs, PAHs, and PCBs in Environmental Samples |
| Application Note |
The Importance of Autosampler Vial Selection in the GC-MS Analysis of Pyrethroid Pesticides at Low Concentration |
| Application Note |
Determination of 1,4-Dioxane in Drinking Water by Gas Chromatography/Mass Spectrometry (GC/MS) with Selected Ion Monitoring (SIM) |
| Application Note |
Color of Water and Wastewater by Platinum-Cobalt Method at 455nm |
| Application Note |
Color of Pulp Mill Wastewater at 465nm |
| Application Note |
Orthophosphate in Surface and Wastewater by Colorimetry |
| Application Note |
Nitrite in Surface Water and Wastewater by Colorimetry |
| Application Note |
Maximizing Speed and Separations for Lowering Drinking Water Detection Limits with GC/MS |
| Application Note |
Ultra-Fast Agricultural Soil Analysis |
| Application Note |
US EPA Method 200.7 using the iCAP 7600 ICP-OES Duo |
| Application Note |
Rapid and Reliable Detection of Dissolved Gases in Water |
| Application Note |
Environmental Applications Notebook for Trace Elemental Analysis |
| Application Note |
Monitoring Fugitive Dust |
| Application Note |
Configuration and Performance of the Antaris IGS Analyzer |
| Application Note |
Continuous Flare Stack Emission Monitoring Using the SOLA II Flare System |
| Application Note |
Measurement of Methanol and Formaldehyde in Automobile Exhaust Using FT-IR |
| Application Note |
Meeting Interim EPA Traceability Protocol Requirements using the Model 84i Permeation Source |
| Application Note |
Mercury Monitoring in a Cement Kiln |
| Application Note |
Monitoring Siloxane Levels Using Gas Analysis |
| Application Note |
Monitoring the Purity of Liquid Carbon Dioxide with an Antaris IGS Gas Analyzer |
| Application Note |
The Use of FT-IR to Analyze NOx Gases in Automobile Exhaust |
| Application Note |
Rapid Screening Method for Polycyclic Aromatic Hydrocarbons Using an Advanced UHPLC Column and System |
| Application Note |
Direct Determination of Small Organic Acids in Sea Water by IC-MS |
| Application Note |
Determination of Aniline and Nitroanilines in Environmental and Drinking Waters by On-Line SPE |
| Application Note |
Sensitive Determination of Explosive Compounds in Water |
| Application Note |
Simultaneous Determination of Aromatic Amines and Pyridines in Soil |
| Application Note |
Sensitive and Rapid Determination of Polycyclic Aromatic Hydrocarbons in Tap Water |
| Application Note |
Sensitive and Rapid Determination of Paraquat and Diquat in Tap and Environmental Waters |
| Application Note |
Determination of Phthalates in Drinking Water by UHPLC with UV Detection |
| Application Note |
Determination of Phenylurea Compounds in Tap Water and Bottled Green Tea |
| Application Note |
Identification and Quantitation of Microcystins by Targeted Full-Scan LC-MS/MS |
| Application Note |
Confirmation of Low Level Dioxins and Furans in Dirty Matrix Samples using High Resolution GC/MS |
| Application Note |
Discovery of Emerging Disinfection By-Products in Water Using Gas Chromatography Coupled with Orbitrap-based Mass Spectrometry |
| Application Note |
Targeted and Nontargeted MS Analysis of Contaminants in Storm Water Retention Ponds |
| Application Note |
DFS - Analysis of Brominated Flame Retardants with High Resolution GC/MS |
| Application Note |
Determination of polycyclic aromatic hydrocarbons in drinking water at ppt levels by Solid Phase Micro Extraction Arrow coupled with GC-MS |
| Application Note |
US EPA SW-846 Method 6010D Using the iCAP 7400 ICP-OES Duo |
| Application Note |
Determination of adsorbable organic halogen in wastewater using a combustion ion chromatography system |
| Application Note |
Accurate determination of arsenic and selenium in environmental samples using the iCAP TQ ICP-MS |
| Application Note |
Quantitation of cyanotoxins in drinking water according to EPA 544 guidelines |
| Application Note |
Reduced injection volume applied to the quantitation of cylindrospermopsin and anatoxin-a in drinking water according to EPA Method 545 |
| Application Notebook |
Mass Spectrometry Applications for Environmental Analysis |
| Application Proof Note |
Sensitive Determination of Hexavalent Chromium in Drinking Water Using a Compact Ion Chromatography System |
| Application Update |
Determination of Ethanolamines in Industrial Waters by Cation-Exchange Chromatography |
| Application Update |
Determination of Trace Concentrations of Oxyhalides and Bromide in Municipal and Bottled Waters Using a Compact Ion Chromatography System |
| Application Update |
Fast Anion Determinations in Environmental Waters Using a High-Pressure Compact Ion Chromatography System |
| Application Update |
Determination of Nitrite and Nitrate in Drinking Water Using Chemically Suppressed Ion Chromatography |
| Application Update |
Determination of Nitrite and Nitrate in Drinking Water Using lon Chromatography with Direct UV Detection |
| Application Update |
Determination of Trace Lithium in Industrial Process Waters |
| Application Update |
Determination of Hexavalent Chromium in Drinking Water Using Ion Chromatography |
| Application Update |
Determination of Diethanolamine and Triethanolamine in Surface Finishing, Wastewater and Scrubber Solutions |
| Application Update |
Determination of Perchlorate in Drinking Water Using a Reagent-Free Ion Chromatography System |
| Application Update |
Separation of Chromium (III) and Chromium (VI) by Ion Chromatography |
| Application Update |
Sensitive Determination of Hexavalent Chromium in Drinking Water |
| Application Update |
Anion Determinations in Municipal Drinking Water Samples Using EPA Method 300.1 (A) on an Integrated IC System |
| Application Update |
Analysis of Environmental Waters for Cations and Ammonium Using a Compact Ion Chromatography System |
| Applications Notebook |
Environmental Water Analysis Applications Notebook |
| Article |
Comparison of Regulated Methods Using Ion Chromatography for Bromate Analysis in Drinking Water |
| Article |
Changes from EPA Method 218.6 to 218.7 Yield Improved Detection Limits for Hexavalent Chromium |
| Article |
Just Add Water |
| Article |
Using LIMS to Deliver Safe Water |
| Article |
Automated Data Management Helps Labs Meet Regulatory, Reporting Requirements |
| Article |
Going Mobile: Portable Equipment for Water Testing in the Field |
| Brochure |
Portable, On-line and Laboratory Water Analysis Systems |
| Brochure |
Hydraulic Fracturing: Analytical Solutions for a Healthier, Cleaner and Safer Planet |
| Brochure |
Environmental Analysis |
| Brochure |
Persistent Organic Pollutant Analysis: Comprehensive workflows for regulatory compliance |
| Brochure |
Everything you need to ensure your success in pesticide analysis—now and beyond |
| Case Study |
Integration of SampleManager LIMS and CSols Remote Sampler at Northern Ireland Water Delivers Enhanced Audit Trail, Significant Time and Cost Savings |
| Case Study |
Water, Environmental and Pharma LIMS Solution Transforms Information Management Solution at Nova Biologicals |
| Case Study |
Efficiency and Flexibility in Water Analysis |
| Case Study |
Faster and better analysis of complex samples in a geochemical laboratory |
| Certification Report |
Thermo Scientific Model 81i Calibrator Certification Report |
| Infographic |
Cement MACT |
| Infographic |
Follow these 5 steps to Cement MACT compliance |
| Poster |
A Novel High-Resolution, Accurate-Mass, Orbitrap-Based GC-MS for Routine Analysis of Short Chained Chlorinated Paraffins |
| Poster Note |
Hydraulic Fracturing Flowback Water Analysis Using In-line Conductivity, Automated Dilution, and Ion Chromatography |
| Poster Note |
Analytically Monitoring the Effect of Fracturing Activity |
| Poster Note |
A New GC–ICP–MS Method for Compound Specific Determination of Brominated Flame Retardants |
| Poster Note |
EPA Method 557 Quantitation of Haloacetic Acids, Bromate, and Dalapon in Drinking Water Using Ion Chromatography and Tandem Mass Spectrometry |
| Poster Note |
EPA Method 557 Quantitation of Haloacetic Acids, Bromate, and Dalapon in Drinking Water Using Ion Chromatography and Tandem Mass Spectrometry |
| Poster Note |
Development of a New Column for the Measurement of Halocetic Acids in Drinking Water by IC-MS and IC-MS/MS |
| Poster Note |
Sensitive Determination of Microcystins from Environmental Waters Using On-Line SPE |
| Poster Note |
Method Development for the Identification of Novel Brominated Flame Retardants Using a Q Exactive HRAM Hass Spectrometer |
| Poster Note |
A Strategy for an Unknown Screening Approach on Environmental Samples Using HRAM Mass Spectrometry |
| Poster Note |
Quantitative Determination of Disinfection Byproduct Haloacetic Acids in Drinking Water using a New Mixed-Mode column and Liquid Chromatography Tandem Mass Spectrometry Haloacetic Acids |
| Poster Note |
A Novel Screening Method for Anthropogenic Sewage Pollutants in Waste Water, Ground Water and Drinking Water Samples by LC–HRAM Analysis |
| Product Overview |
Trusted Legionella detection. Reliable results. |
| Reference Guide |
The European Water Framework Directive: Environmental Solutions Reference Guide |
| Selection Guide |
Sample Preparation for Ion Chromatography: Comprehensive Solutions to Sample Preparation Challenges |
| Selection Guide |
EPA Methods: The Easy Way |
| Selection Guide |
Solutions for U.S. EPA Drinking Water Contaminant Analysis |
| Technical Note |
Comparison of Single and Triple Quadrupole GC-MS Instruments for Full Scan Analysis of Semivolatile Organic Compounds |
| Technical Note |
Accelerated Solvent Extraction Techniques for In-Line Selective Removal of Interferences |
| Technical Note |
Determination of Transition Metals in Complex Matrices by Chelation Ion Chromatography |
| Technical Note |
Determination of Cr(VI) in Water, Wastewater, and Solid Waste Extracts |
| Technical Note |
Determination of Transition Metals by Ion Chromatography |
| Technical Note |
Accurate and Precise Automated Dilution and In-line Conductivity Measurement Using the AS-AP Autosampler Prior to Analysis by Ion Chromatography |
| Technical Note |
Determination of Anions in Fracking Flowback Water From the Marcellus Shale Using Automated Dilution and Ion Chromatography |
| Technical Note |
Flowback Water From the Marcellus Shale Using Automated Dilution and lon Chromatography |
| Technical Note |
Determination of Chromium by Ion Chromatography |
| Technical Note |
Ion Chromatography/Inductively Coupled Argon Plasma (IC/ICAP): A New Technique for Trace Metal Determinations |
| Technical Note |
Automated Sample Preconcentration of Metals in Drinking Water for Inductively Coupled Argon Plasma (ICAP) Spectroscopy |
| Technical Note |
Reducing Carbonate Interference in Anion Determinations with the Carbonate Removal Device (CRD) |
| Technical Note |
Nanoparticle Characterization Via Single Particle Inductively Coupled Plasma – Mass Spectrometry (spICP-MS) Using Dedicated Plug-in for Qtegra ISDS Software |
| Technical Note |
Analysis of High Matrix Samples using Argon Gas Dilution |
| Technical Note |
Automated, Intelligent Sample Preparation: Integration of the ESI prepFAST Auto-Dilution System with ICP-MS |
| Technical Note |
Highly stable performance of the iCAP 7000 Plus Series ICP-OES Radial for aqueous, organic and high dissolved solids sample matrices |
| Technical Note |
Quantitative and Semi-Quantitative Determination of PPCPs and Their By-Products in Wastewater by Orbitrap MS |
| Technical Note |
Chromeleon CDS Workflow for Determination of Inorganic Anions in Drinking Water According to U.S. EPA Method 300.1 |
| Video |
New Technique using Two Dimensional Ion Chromatography (2D IC) for HAA Analysis |
| Video |
Live from WEFTEC: Thermo Fisher Scientific's Colin Thurston talks about informatics solutions that enable regulatory compliance, efficiencies and traceability for Water and Environmental laboratories |
| Webinar |
IC-MS Analysis of Haloacetic Acids |
| Webinar |
Speed and Cost of Ownership |
| Webinar |
Preparing your Laboratory for Advanced Environmental Analysis |
| Webinar |
Trace Elemental Analysis of Waste Associated with Power Generation |
| Webinar |
Demystifying Interference Removal |
| Webinar |
The EU Water Framework Directive: Analytical Challenges for Trace Element Measurement in Variable Matrix Samples |
| Webinar |
Demystifying Sample Preparation – How Automation Can Make Light Work of the Sample-to-Results Workflow in Trace Metal Analysis |
| Webinar |
Improve Analysis Precision for ICP-OES and ICP-MS for Environmental and Geological Applications |
| Webinar |
Non-targeted Analysis of Emerging Contaminants in Wastewater Impacted Aquatic Environments |
| Webinar |
Target and Non-target Analyte Screening in Natural Water Samples Using the Orbitrap Part 1 |
| Webinar |
Target and Non-target Analyte Screening in Natural Water Samples Using the Orbitrap Part 2 |
| Webinar |
Advanced IC Applications for Compliance Monitoring in Drinking Water Monitoring Bromide & Bromate by EPA Methods 300.1 & 302 with Advances in 2D Capillary IC |
| Webinar |
Quantification of 21 Perfluorinated Compounds in Whole Water System |
| Webinar |
Anions and Metals Analysis for Waters Impacted by Hydraulic Fracturing |
| Webinar |
Utilizing Ion Chromatography for Drinking and Wastewater Analysis |
| Webinar |
Analysis of Targeted and Non-targeted Contaminants in Storm Water Retention Ponds |
| Webinar |
Nontargeted Screening for Emerging Contaminants In Water and Wastewater Using Offline SPE and LC-HRMS |
| Webinar |
Flowback Water Analysis from Marcellus Unconventional Gas Extraction with ICP-OES |
| Webinar |
Comprehensive Water Quality Analysis Using an Automated Ion Chromatography Titration System |
| Webinar |
Analysis of Trace Contaminants of Emerging Concern in Water Using Online SPE LC/MS |
| Webinar |
Analysis of Perchlorate, Chromate, and Inorganic Anions in Drinking Water |
| Webinar |
Update on EPA Unregulated Contaminant Monitoring Rule 3—Organic Contaminants |
| Webinar |
The Water Framework Directive: a challenge for analytical chemistry |
| Webinar |
New Techniques for Anions, Cations and Radioisotope Analysis of Marcellus Shale Flowback Waters |
| Webinar |
Complete Inorganic Elemental Speciation Solutions for Environmental Applications |
| Webinar |
Determination of Bromate and Perchlorate in Drinking Water and Bottled Water by 2D-IC Using Capillary IC |
| Webinar |
Monitoring Bromide & Bromate by EPA Methods 300.1 & 302 with Advances in 2D Capillary IC |
| Webinar |
Benefits of Using Capillary Ion Chromatography Determination of Inorganic Ions in Municipal Drinking Water and Wastewater by High Pressure Capillary IC |
| Webinar |
Determination of Inorganic Ions in Municipal Drinking Water and Wastewater by High-Pressure Capillary Ion Chromatography |
| Webinar |
Determination of HAAs in Drinking Water Matrices with IC-MS/MS and 2D-IC |
| Webinar |
Rapid Determination of Inorganic Ions in Wastewater by Ion Chromatography |
| Webinar |
EPA Unregulated Contaminant Monitoring Rule 3—Inorganic Contaminants, Part 1 |
| Webinar |
Update on EPA Unregulated Contaminant Monitoring Rule 3—Inorganic Contaminants |
| Webinar |
EPA Unregulated Contaminant Monitoring Rule 3—Organic Contaminants, Part 2 |
| Webinar |
Explore an Alternate Method for Nitrate Analysis in Wastewater Using Enzymatic Discrete Analysis |
| Webinar |
Dealing with High-Matrix Environmental Samples |
| Webinar |
Multi-Residue Targeted Method for the Analysis of Contaminants of Emerging Concern in Wastewater Using the Q-Exactive High Resolution, Accurate Mass - Mass Spectrometer |
| Webinar |
Demystifying Sample Preparation for Trace Metal Analysis: How Automation Can Make Light Work Of the Sample-to-Results Workflow |
| Webinar |
Rapid Speciation and Determination of Vanadium Compounds in Water Samples |
| Webinar |
Bromine Speciation in Ozonated Drinking Water Using Ion Chromatography and Inductively Coupled Plasma Mass Spectrometry |
| White Paper |
Employing Flexible Data Management Solutions that Deliver Improved Productivity and Quality in the Water and Environmental Industry |
| White Paper |
Evaluation of Various Anion-Exchange Chemistries for the Analysis of Haloacetic Acids in Drinking Water Using 2-D Matrix Elimination Ion Chromatography and Suppressed Conductivity Detection |
| White Paper |
The Importance of Anion and Organic Acid Determinations in Fracking Wastewater by Ion Chromatography |
| White Paper |
Bromide Analysis for Hydraulic Fracturing |
| White Paper |
Conductivity Detection in Cation Chromatography—Advantages and Disadvantages of Suppression |
| White Paper |
Hydraulic Fracturing Waters |
| White Paper |
Quality Data Management: An Essential Component Of US Water Infrastructure |
| White Paper |
CEMS: A dual-sensing technology |
