Document Library
The LECO Document Library is your primary source for instrument-based documentation, including brochures, application notes, webinars and presentations.
Broszury 95
Karty referencyjne 23
Katalogi materiałów eksploatacyjnych
Zamów katalogi bieżących materiałów eksploatacyjnychFilmy i webinaria 105
- 1Environmental Non-Targeted Screening: What is in our Air? High-Resolution and Comprehensive Mass Spectrometry Analysis of Ambient Particulate Matter Od 2 grudnia 2024
- 2Non-Targeted Screening in Food: Boosting Food Analysis using GC×GC-ToF MS Od 11 listopada 2024
- 3Moisture Determination in Milk and Milk Products Od 17 października 2024
- 4Non-Targeted Screening in Sustainable Fuels: Exploring Method Development and Fuel Quality Assessment Using GCxGC-MS and Hyphenated Techniques Od 27 września 2024
- 5Non-targeted screening in forensics, a discussion of method development and screening of forensic samples using GCXGC-TOFMS Od 4 września 2024
- 6New Dimensions in Non-Targeted Screening of Complex Aroma Profiles Od 1 sierpnia 2024
Plakaty i prezentacje 220
- POPs Human Plasma BTX-GCxGC Comprehensive Non-Targeted Characterization of Persistent Organic Pollutants (POPs) in Human Plasma Using GCxGC with High-Performance TOFMS
- TOC Comparison Optimizing Performance Total Organic Carbon (TOC) Determination: Comparing Different Analytical Approaches and Optimizing Performance
- TOC Comparison Acid Treatment Total Organic Carbon (TOC) Determination: Comparing Two Different Approaches to Acid Treatment in Preparation for Combustion Analysis
- Cannabis Characterization BT-GCxGC Cannabis Characterization Using GC and GCxGC With Time-of-Flight Mass Spectrometry
- Essential Oil Fragrance Samples BT-GCxGC Paradigm Shift Non-Target Characterization of Complex Essential Oil and Fragrance Samples with GCxGC-MS-FID for Reliable Identification and Relative Quantitation in a Single Injection
- Synthetic Aviation Fuels RFF Splitter BT-GCxGC-Paradigm Shift Application of a Novel Reverse-Fill-Flush Modulator and Splitter for Simultaneous GCxGC-TOFMS/FID Analysis of Synthetic Aviation Fuels