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This application note establishes a process for identifying GC-amenable extractables and leachable compounds using GC/MSD and GC/Q-TOF instruments.
| Korean (Korea) | Complete (PDF) |
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| Chinese (Simplified) (China) | Complete (PDF) |
This work presents a novel tool to study E&L compounds with enhanced flexibility and confidence using a high-resolution accurate mass GC/Q-TOF
| Korean (Korea) | Complete (PDF) |
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Agilent technology refresh program for pharmaceutical labs
| Russian (Russia) | Complete (PDF) |
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| Korean (Korea) | Complete (PDF) |
| Japanese (Japan) | Complete (PDF) |
| Italian (Italy) | Complete (PDF) |
| German (Germany) | Complete (PDF) |
| French (France) | Complete (PDF) |
| Portuguese (Brazil) | Complete (PDF) |
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| Chinese (Simplified) (China) | Complete (PDF) |
This study demonstrates how unit resolution GC/MS workflow is employed for identifying GC-amenable E&L compounds by leveraging spectral deconvolution in combination with retention index-based time filtering.
The study's goal was to develop analytical methods and workflows for acquisition and efficient processing of the complex E&L data with a focus on a non-targeted approach.?
ASMS 2023 - In this work, the GC column and separation were optimized to obtain the ultimate detection limit for these analytes using a high efficiency ion source and MRM.