| Type |
Title |
| Brochure |
Optimize your metals production process: upstream and downstream |
| Webinar |
Characterization of Battery Materials: Test cases for the energy storage of tomorrow |
| Webinar |
Analysis of Phosphate and Manganese Degradation Products in Aged Lithium-Ion Batteries |
| Webinar |
Forensic Analysis: FT-IR, Raman and GC-IR Within Minutes |
| Webinar |
Advantages of Monitoring Industrial Gases using Online FT-IR Spectroscopy |
| Webinar |
Smarter FT-IR Spectroscopy for General Analytical Services |
| Webinar |
Going Green for Earth Day: New Solvent-free Infrared Method for Oil & Grease in Water |
| Webinar |
FT-IR Spectroscopy for Structure Elucidation of Proteins |
| Webinar |
Infrared and UV-Vis Spectroscopy in Pharmaceutical QC |
| Webinar |
GC-IR |
| Webinar |
Failure Analysis, Process Validation, and Competitive Analysis with TGA |
| Webinar |
MAIRS on FTIR - A Powerful Tool for Revealing Molecular Orientation in an Ultrathin Film |
| Webinar |
Introduction to Infrared Spectral Interpretation |
| Webinar |
FT-IR Transmission Sampling: Faster, Easier, Cheaper |
| Webinar |
Spectroscopy Simplified: ATR Sampling in FT-IR |
| Brochure |
Optimize your aluminum production process at every critical stage |
| Failure Analysis |
Identifying Failures and Ensuring Quality of Plastic Materials |
| Brochure |
Process Mass Spectrometry in Hydrocarbon Processing |
| Brochure |
Refining and petrochemical industry monitoring solutions |
| Brochure |
Innovative solutions for the cement industry |
| Brochure |
Innovative OES for reliable quality metals |
| Article |
DATA MANAGEMENT: PETROCHEMICALS: Fueling the future |
| Case Study |
Implementing a Mission Critical Client/Server Chromatography Data System for Continuous Uptime |
| Case Study |
Improving Research and Development Processes |
| Webinar |
A Comparative Analysis of Semiconductor Electroplating Bath Additives by CVS and HPLC |
| Brochure |
Brines and Fine Caustics Workflow Brochure |
| Brochure |
Complete Near-Infrared Solution for Animal Feed and Ingredient Analysis |
| Application Note |
AN 144: Determination of Perchlorate in High Ionic Strength Fertilizer Extracts by Ion Chromatography |
| Data Sheet |
CONNECTS for the Paperless Lab |
| Technical Information Bulletin |
Handheld FTIR for Unknown Chemical and Explosives Identification |
| Product Specifications |
Thermo Scientific TruScan RM Next Generation Handheld Raman for Raw Material Identification |
| Article |
Determination of Trace Anions in Concentrated Caustics Using Single-Pass Neutralization Pretreatment and IC |
| Article |
Achieving Success in Chemical Manufacturing: How a Laboratory Information Management System Ensures Flexibility in the Lab |
| Webinar |
The Advantages of Near-Infrared Spectroscopy for the Analysis of Polymers |
| Application Note |
SOLA II – Trace Sulfur Analysis in the Production of Biofuels |
| Application Note |
SOLA II Trace in Reforming and Isomerization |
| Application Note |
SOLA II — Field Sulfur Analyzer for Clean Fuels Distribution |
| Application Note |
AN 145: Determination of the Suppressor Additive in Acid Copper Plating Bath |
| Application Update |
AU 133: Saccharin in Electrolyte Nickel Sulfate Baths |
| Application Update |
AU 163: Determination of Trace Anions in Organic Solvents Using Matrix Elimination and Preconcentration |
| Application Note |
AN 119: Determination of Anionic Fluorochemical Surfactant in Semiconductor Etch Bath |
| Application Update |
AU 111: Copper Gleam PCM or PC in Acid Copper Baths |
| Application Note |
AN 139: Determination of Additives and Byproducts in an Acid Copper Plating Bath by Liquid Chromatography |
| Application update |
AU-158: Determination of Manganese in Brine (≥ 30% NaCl) |
| Application Note |
AN 40986: Environmental Series - Trace contaminant analysis in brine using an iCAP 6000 Series Duo ICP |
| Brochure |
BR 70737: Trace Contaminant Workflow Analysis Brines and Fine Caustics |
| Technical Note |
TN 45: Determination of Trace Anions in Hydrofluoric Acid, Ammonium Fluoride, and a Buffered Oxide Etchant |
| Application update |
AU 107: Direct Determination of Cyanide in Strongly Alkaline Solutions |
| Application update |
AU 155: Determination of Cations and Amines in Hydrogen Peroxide by Ion Chromatography Using a RFIC (Reagent-Free) System |
| Application Note |
AN 153: Monitoring for Trace Anion Contamination in the Extracts of Electronic Components |
| Application Brief |
AB 43205: Determination of Ultratrace Elements in Semiconductor Grade Sulfuric Acid using the Thermo Scientific iCAP Qs ICP-MS |
| Application Brief |
AB 43204: Determination of Ultratrace Elements in Semiconductor Grade Hydrochloric Acid using the Thermo Scientific iCAP Qs ICP-MS |
| Application Note |
AN 51663: Density and Copolymer Content in Polyethylene Samples by FT-NIR spectroscopy |
| Application Note |
AN 51593: Determination of Plasticizer Content in PVC by FT-NIR spectroscopy |
| Application Note |
AN 51594: FT-NIR for Online Analysis in Polyol Production |
| Application Note |
AN 52157: Enhanced Sensitivity to Detect Phthalates by FT-IR |
| White Paper |
European cosmetics industry faces new test in GMP Compliance |
| Application Note |
AN 104: Analysis of Personal Care Products by Ion Chromatography |
| Application update |
AU 190: Rapid Determination of Benzalkonium Chloride in a Cosmetic |
| Application Note |
Density and Copolymer Content in Polyethylene Samples by FT-NIR Spectroscopy |
| Application Note |
Determination of Plasticizer Content in PVC by FT-NIR Spectroscopy |
| Application Note |
Enhanced Sensitivity to Detect Phthalates by FT-IR |
| Application Note |
European Cosmetics Industry Faces New Test in GMP Compliance |
| Application Note |
FT-IR Contaminant Identification using OMNIC Specta Software |
| Application Note |
FT-NIR Analysis of the Hock Process for the Production of Phenol and Acetone |
| Technical Notes |
LIMS Resources – Software, Informatics, and Paperless Labs |
| Application Note |
Monitoring the Output of Pharmaceutical Hot Melt Extruders with NIR Spectroscopy |
| Application Note |
AN 1102: Rapid and Sensitive Determination of Rhodamine B in Cosmetics |
| White Paper |
Screening Consumer Products for Toxic Substances X-ray Fluorescence and Reducing Compliance Risk |
| Product Specifications |
Thermo Scientific microPHAZIR PC Handheld Plastics Analyzer |
| Webinar |
A Comparative Analysis of Semiconductor Electroplating Bath Additives by CVS and HPLC |
| Article |
Trace Degradation Analysis of Lithium-Ion Battery Components |
| White Paper |
WP 71211: Measurement and Control of Copper Additives in Electroplating Baths by High-Performance Liquid Chromatography |
| Application Brief |
AB 43204: Determination of Ultratrace Elements in Semiconductor Grade Hydrochloric Acid using the Thermo Scientific iCAP Qs ICP-MS |
| Application Brief |
AB 43205: Determination of Ultratrace Elements in Semiconductor Grade Sulfuric Acid using the Thermo Scientific iCAP Qs ICP-MS |
| Application Note |
AN 93: Determination of Trace Anions in Concentrated Bases Using AutoNeutralization Pretreatment/Ion Chromatography |
| Application Note |
AN 94: Determination of Trace Cations in Concentrated Acids Using AutoNeutralization Pretreatment and Ion Chromatography |
| Application Update |
AU 157: Using a Reagent-Free Ion Chromatography System to Monitor Trace Anion Contamination in the Extracts of Electronic Components |
| Poster Note |
Identification of Phosphorus-Containing Degradation Products Obtained from Surface Deposits on Li-Ion Battery Anodes Using Ion Chromatography Coupled to High Resolution Accurate Mass MS/MS |
| Poster Note |
Comprehensive Analysis of Lithium Ion Battery Anode Samples by Ion Chromatography Coupled with High Resolution Mass Spectrometry |
| Article |
Trace Degradation Analysis of Lithium-Ion Battery Components |
| Webinar |
Analysis of Phosphate and Manganese Degradation Products in Aged Lithium-Ion Batteries by IC and HRMS |
| Webinar |
From Surface to Cell: Understanding the Lithium-ion Battery |
| Webinar |
Speciation Analysis of Manganese Dissolution Product in Li-ion Batteries |
| Webinar |
Trace Degradation Analysis of Lithium Ion Battery Electrolytes |
| Webinar |
Building Better Lithium Ion Batteries: Raman Spectroscopy – An Essential Tool for Evaluating New Lithium Ion Battery Components |
| Application Note |
AN 52615: Analysis of Electrode Materials for Lithium Ion Batteries |
| Application Note |
AN 52676: In situ Raman Analysis of Lithium Ion Batteries |
| Application Note |
AN 52677: Ex Situ Raman Analysis of Lithium Ion Batteries |
| Application Note |
AN 258: Determination of Tetrafluoroborate, Perchlorate, and Hexafluorophosphate in a Simulated Electrolyte Sample from Lithium Ion Battery Production |
| Application Note |
AN 1053: Determination of Dissolved Manganese in Lithium/Manganese Oxide Battery Electrolyte |
| Application Note |
AN 52443: Raman Analysis of Lithium-Ion Battery Components – Part I: Cathodes |
| Application Note |
AN 52444: Raman Analysis of Lithium-Ion Battery Components – Part II: Anodes |
| Application Note |
AN 52445: Raman Analysis of Lithium-Ion Battery Components – Part III: Electrolytes |
| Article |
AR 71480: Trace Degradation Analysis of Lithium-Ion Battery Components |
| Poster Note |
PN 43187: Failure Analysis Testing of a Cycle Aged Automotive Lithium Ion Battery Electrolyte |
| Customer Testimonial |
Customer Testimonial - QMS |
| Webinar |
Feature Sizing - Sparse Particle-Inclusion Analysis |
| Webinar |
Optimum Settings for EDS Mapping |
| Webinar |
XPS Analysis of Biosurfaces |
| Webinar |
Surface Analysis for Thin Film Coatings |
| Webinar |
Multitechnique Surface Analysis and Cluster Ion Sample Cleaning |
| Webinar |
Electron-Beam Microanalysis for Failure Analysis |
| Application Note |
AN 31025: Characterization of Silicon Oxide and Oxynitride Layers |
| Application Note |
AN 31049: XPS Analysis of a Self-Assembled Monolayer |
| Application Note |
AN 51188: Resolving Overlapping Peaks on NS7 |
| Application Note |
AN 51221: Merits of Quant Element Mapping at Low Acceleration |
| Application Note |
AN 52109: Surface Characterization of Organic LED Material |
| Application Note |
AN 52130: XPS Characterization of 'Click' Surface Chemistry |
| Application Note |
XPS Characterization of a Membrane Electrode Assembly from a Proton Exchange Fuel Cell |
| Brochure |
BR 52529: EDS Mapping Routines |
| Brochure |
BR 52591: Thermo Scientific NORAN System 7 Microanalysis with JEOL TEM Integration |
| Application Note |
Niton XL2 GOLDD Electronics LODs |
| Application Note |
Thermo Scientific Niton XRF Analyzers - RoHS |
| White Paper |
WP 52353: Trends in X-ray Microanalysis - Enabling Rapid Discovery One Pixel at a Time |
| Product Specifications |
Lead Analysis Tool |
| Brochure |
Environmental Hazards Testing |
| Application Note |
AN 50752: Monitoring the UV Cure Process of a Polymer Based Ink by FT-IR |
| Article |
Polymer Problems Identified |
| Webinar |
Combining Rheometry with FTIR and Microscopy: Benefits and Applications in Polymer Research |
| Webinar |
Pushing Polymer Pellets — At-line FT-IR Polymer Analysis |
| Webinar |
Your Next Packaging Analysis Tool - Raman Microscopy |
| Webinar |
Bet the Pharma - Application of Diffuse Reflectance NIR Spectroscopy to Monitor the Output of Pharmaceutical Hot Melt Extruders |
| Webinar |
Into the Depths - Analysis of Multilayer Polymer Films by Confocal Raman Microscopy |
| Webinar |
Polymer Problem Solving with FT-IR Analysis |
| Webinar |
Polymer Analysis from Raw Material to Formulation |
| Webinar |
Polymer Composition Analysis: Exploring with FT-IR and Other Spectroscopy Methods |
| Webinar |
Exploring Polymer Product Characteristics with Image-Guided Infrared Microscopy |
| Webinar |
Breaking it Down - Polymer Deformulation using FTIR Coupled to TGA |
| Application Note |
Root Cause Analysis of a Failed Plastic Cover |
| Webinar |
What Went Wrong? FT-IR as a Valuable Tool in Plastic Failure Analysis |
| Webinar |
Peeling Back the Layers. Characterizing Multi-layer Structures using FT-IR and Raman Microscopy |
| Poster Note |
Polymer Troubleshooting Guide |
| Application Note |
AN 331: Accelerated Solvent Extraction (ASE) of Additives from Polymer Materials |
| Application Note |
AN 336: Accelerated Solvent Extraction of Plasticizers from Polyvinyl Chloride Polymer |
| Application Note |
AN 1108: Comparison of Soxhlet and Accelerated Solvent Extraction for Leachable and Extractable Analysis of Packing Material |
| Application Note |
AN 43135: Analysis of Trace Elements in Polymer Samples to Ensure Compliance WEEE-RoHS International Standards using the Thermo Scientific iCAP 7200 ICP-OES |
| Application Note |
AN 43144: Analysis of Migratory Elements in Toy Samples using the Thermo Scientific iCAP 7200 ICP-OES |
| Application Note |
AN 10363: Determination of Volatile Compounds in Automotive Interior Materials by Thermal Desorption GC-MS |
| Application Note |
AN-PPETH-0413: Advancing Process Control and Efficiency During Ethylene Production Using the Prima PRO Process Mass Spectrometer |
| Application Note |
Confocal Raman Microscopy Analysis of Multilayer Polymer Films |
| Application Note |
Confocal Raman Microscopy Applications in the Polymer Industry |
| Application Note |
Density and Copolymer Content in Polyethylene Samples by FT-NIR Spectroscopy |
| Application Note |
Determination of Plasticizer Content in PVC by FT-NIR Spectroscopy |
| Application Note |
Discriminant Analysis of Cellulose Esters Using FT-NIR |
| Application Note |
FT-NIR Analysis of the Hock Process for the Production of Phenol and Acetone |
| Application Note |
FT-NIR for Online Analysis in Polyol Production |
| Application Note |
Monitoring the Output of Pharmaceutical Hot Melt Extruders with Near-infrared Spectroscopy |
| Application Note |
Monitoring the UV Cure Process of a Polymer Based Ink by FT-IR |
| Application Note |
Polymer Cross-linking Analysis by NIR: Avoiding Hazardous Solvents |
| Application Note |
Polymerization Cure Rates Using FT-NIR Spectroscopy |
| Technical Note |
Powerful New Identification Tools with OMNIC Specta Software |
| Technical Note |
Rapid, Accurate Quality Verification with QCheck |
| Application Note |
Sampling Considerations for the Measurement of a UV Stabilizer in Polymer Pellets using FT-NIR |
| White Paper |
Setting the Benchmark for Confidence and Ease of Use in FT-IR Microscopy |
| Application Note |
Time-Based FT-IR Analysis of Curing of Polyurethanes |
| White Paper |
TGA-IR Analysis Using the OMNIC Mercury TGA Software |
| Application Note |
Thermo Scientific Nicolet iS50 FT-IR Spectrometer: Improving Productivity through Compact Automation |
| White Paper |
TGA-IR Analysis Using the OMNIC Mercury TGA Software (WP52352) |
| Application Note |
AN 50829: Carbon Black Analysis using FT-IR with Germanium and Diamond ATR |
| Application Notebook |
AI 71640: Ion Chromatography: Power Plant Water Applications Summary Notebook |
| Application Note |
AN 113: Determination of Trace Anions in High-Purity Waters by High Volume/Direct Injection Ion Chromatography |
| Application Note |
AN 114: Determination of Trace Anions in High-Purity Waters Using Direct Injection and Two-Step Isocratic Ion Chromatography |
| Application Note |
AN 131: Determination of Transition Metals at PPT Levels in High-Purity Water and SC2 (D-clean) Baths |
| Application Note |
AN 146: Determination of Trace Anions in High-Purity Waters by Ion Chromatography with the Dionex IonPac AS17 Using High-Volume Direct Injection |
| Application Note |
AN 158: Determination of Trace Sodium and Transition Metals in Power Industry Samples by Ion Chromatography with Nonsuppressed Conductivity Detection |
| Application Note |
AN 86: Determination of Trace Cations in Power Plant Waters Containing Morpholine |
| Application Note |
AN 166: Application of Eluent Generation for Trace Anion Analysis of Borated Waters |
| Application Note |
AN 250: Determination of Trace Nickel and Zinc in Borated Power Plant Waters Containing Lithium Hydroxide Using Nonsuppressed Conductivity Detection |
| Application Update |
AU 175: Determination of Organic Acids and Inorganic Anions in Lithium-Containing Boric Acid-Treated Nuclear Power Plant Waters |
| Application Update |
AU 191: Determination of Trace Fluoride, Chloride, and Sulfate in Lithium-Containing Borated Waters |
| Application Note |
AN 137: Determination of Trace Anions in High-Nitrate Matrices by Ion Chromatography |
| Application Note |
AN 277: Fast and Sensitive Determination of Transition Metals in Power Industry Waters Using Ion Chromatography |
| Application Note |
AN 1058: Determination of Polyacrylic Acid in Nuclear Power Plant Pressurized Water Reactor Secondary Feed Water |
| Application Brief |
AB 151: Determination of Trace Anions in Nuclear Power Plant Secondary Feed Water Containing Polyacrylic Acid |
| Application Note |
AN 247: Determination of Morpholine, Ethanolamine, and Hydrazine in Simulated Nuclear Power Plant Wastewater |
| Application Note |
AN 141: Determination of Inorganic Cations and Ammonium in Environmental Waters by Ion Chromatography Using the Dionex IonPac CS16 Column |
| Application Note |
AN 371: Analysis of High Boiling Components in Petroleum Products by LC/MS |
| Technical Note |
TN 122: Separation of Heat Stable Amine Salts in Methyldiethanolamine (MDEA) Solutions Using High-Pressure IC |
| Brochure |
BR 70346: Process Monitoring and Analysis: Biofuel Workflows |
| Webinar |
Feedstock Characterization and Fermentation Monitoring of Biofuels |
| Application update |
AU 138: Determination of Ethanolamines in Industrial Waters by Cation-Exchange Chromatography |
| Application Note |
AN 135: Determination of Inorganic Anions in Wastewater by Ion Chromatography |
| Application Note |
AN 206: Determination of Oxalate and Other Anions in Bayer Liquor Using Ion Chromatography |
| Application Note |
AN 371: Analysis of High Boiling Components in Petroleum Products by LC/MS |
| Application update |
AU 126: Determination of Diethanolamine and Triethanolamine in Surface Finishing, Wastewater and Scrubber Solutions |
| Application Note |
AN 135: Determination of Inorganic Anions in Wastewater by Ion Chromatography |
| Application Note |
AN 138: Determination of Thiosulfate in Refinery and Other Wastewaters |
| Application Note |
AN 161: Determination of Metal Cyanide Complexes by Ion Chromatography with On-Line Sample Preconcentration and UV Absorbance Detection |
| Application Note |
AN 1044: Determination of Anions in Dried Distillers Grains with Solubles |
| Application Note |
AN 297: Determination of Total and Potential Sulfate and Total Chloride in Fuel-Grade Butanol Per ASTM D7319-09 |
| Application Note |
AN 296: Assay of Fuel-Grade Butanol for Total and Potential Sulfate and Total Chloride Per ASTM D7328-07 |
| Application Note |
AN 290: Determination of Total and Potential Sulfate and Total Chloride in Ethanol According to ASTM Method D7319 |
| Application Note |
AN 255: Determination of Free and Total Glycerol in Biodiesel Samples by HPAE-PAD Chromatography |
| Application Note |
AN 225: Rapid Method for the Estimation of Total Free Monosaccharide Content of Corn Stover Hydrolysate Using HPAE-PAD |
| Application Note |
AN 363: Using Accelerated Solvent Extraction in Alternative Fuel Research |
| Application Note |
AN 282: Rapid and Sensitive Determination of Biofuel Sugars by Ion Chromatography |
| Application Note |
AN 1052: Determination of Chloride and Sulfate in Gasoline-Denatured Ethanol |
| Application Note |
AN 51258: Biodiesel (FAME) Analysis by FT-IR |
| Application Note |
AN 51853: Determination of Free Glycerol in Biodiesel with the Evolution Array UV-Visible Spectrophotometer |
| Application Note |
CAN 301: Determination of Oil Content in Biodiesel Feedstock by Accelerated Solvent Extraction |
| Application Note |
AN 1049: A Single Method for the Direct Determination of Total Glycerols in All Biodiesels Using Liquid Chromatography and Charged Aerosol Detection |
| Application Note |
AN 40876: Elemental Analysis of Canola Oil Using the iCAP 7400 ICP-OES |
| Application Note |
AN 203: Determination of Cations in Biodiesel Using a Reagent-Free Ion Chromatography System with Suppressed Conductivity Detection |
| Application Note |
AN 40967: Petrochemical Series – Analysis of Biodiesel using the iCAP 6000 series ICP |
| Application Note |
AN 270: Determination of Hydroxymethylfurfural in Honey and Biomass |
| Application Note |
AN 192: Carbohydrate Determination of Biofuel Samples |
| Application Note |
AN 10212: Determination of Total FAME and Linolenic Acid Methyl Ester in Pure Biodiesel (B100) by GC in Compliance with EN 14103 |
| Application Note |
AN 10192: Determination of Free and Total Glycerin in B-100 Biodiesel via Method ASTM D6584 |
| Application Note |
AN 10215: Determination of Free and Total Glycerin in Pure Biodiesel (B100) by GC in Compliance with EN 14105 |
| Application Note |
AN 203: Determination of Cations in Biodiesel Using a Reagent-Free Ion Chromatography System with Suppressed Conductivity Detection |
| Application Note |
AN 10216: Determination of Methanol Content in Pure Biodiesel (B100) by Headspace-GC in Compliance with EN 14110 |
| Application Note |
AN 118: Determination of Residual Acylglycerols in Biodiesel |
| Application Note |
AN 10212: Determination of Total FAME and Linolenic Acid Methyl Ester in Pure Biodiesel (B100) by GC in Compliance with EN 14103 |
| Poster Note |
PN 71652: An Improved Global Method for the Quantitation and Characterization of Lipids by High Performance Liquid Chromatography and Corona Charged Aerosol Detection |
| Case Study |
CS 80012: The Worlds Largest Gas to Liquids Facility Runs on SampleManager LIMS |
| Case Study |
CS 80014: Sakhalin Energy Utilizes Thermo Scientific SampleManager LIMS for Largest Russian LNG Project Ever |
| Case Study |
CS 80015: Implementation of Thermo Scientific SampleManager LIMS at Sinopec Guangzhou |
| Article |
Article: The World's Largest Gas-to-Liquids Facility Runs on LIMS |
| Article |
Article: Engineering Defensibility |
| Article |
Article: ISO 14001 and LIMS: Combining Laboratory Environmental Management with Operational Efficiency |
| Article |
Article: LIMS enables the world's largest integrated oil and gas project |
| Article |
Article: Shell's Pearl GTS Runs on LIMS |
| Article |
Article: The Challenges of Compliance |
| Article |
Article: Addressing the Challenges of ISO 17025 Compliance |
| Article |
Article: LIMS Simplifies World's Largest Gas-to-Liquids Plant |
| Article |
Article: Fracking Compliance |
| Article |
Article: The Power of Fully Integrated Informatics |
| Article |
Article: LIMS: Making Compliance a Catalyst for Better Overall Quality and Performance |
| Technical Bulletin |
Tech Info Bulletin 80003: Thermo Scientific Data Manager |
| Technical Bulletin |
Tech Info Bulletin 80004: Thermo Scientific Integration Manager |
| Technical Bulletin |
Tech Info Bulletin 80005: Thermo Scientific Lab Execution System/Procedural ELN |
| Technical Bulletin |
Tech Info Bulletin 80006: Thermo Scientific SampleManager LIMS |
| Technical Bulletin |
Tech Info Bulletin 80007: Thermo Scientific SampleManager LIMS and Thermo Scientific Dionex Chromeleon CDS Link |
| Technical Bulletin |
Tech Info Bulletins: Thermo Scientific CONNECTS for the Paperless Lab |
| Application Note |
AN 43161: Sprint analysis of lubricating oils using the Thermo Scientific iCAP 7000 Plus Series ICP-OES |
| Application Note |
AN 43186: Analysis of Coal and Coal Ash using ICP-OES |
| Application Note |
AN 43209: Analysis of Trace Elements in Naphtha Using the iCAP 7000 Series ICP-OES |
| Application Note |
AN 43158: Lubricating Oil Analysis According to ASTM D5185 using the iCAP 7400 ICP-OES |
| Application Note |
AN 40987: Simplified Analysis of Trace Elements in Gasoline with the iCAP 6000 Series |
| Application Note |
AN 40967: Petrochemical Series: Analysis of Biodiesel using the iCAP 6000 series ICP |
| Poster Note |
Poster Note: Reverse Flow Split/Splitless Injector: Simplification of ASTM D3606 and D4815 Methods |
| Poster Note |
PN 10389: Instant Connect Gas Sampling Valve Module Introducing a New Flexibility in Gas Sampling for GC and GC-MS |
