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Introduction

Accurate detection of residual N-Methyl-2-pyrrolidone (NMP) is critical for lithium-ion battery manufacturing, as leftover solvent can compromise battery performance, safety, and regulatory compliance.

This application note highlights a robust and reproducible GC headspace method for quantifying trace levels of NMP in battery electrode materials using the PerkinElmer GC 2400™ and HS 2400™ M Headspace Sampler. The solution delivers high sensitivity, exceptional precision (%RSD <1%), and virtually zero carryover, making it ideal for routine battery quality control.

  • Discover how the GC workflow can help you achieve:
  • High-precision detection of residual NMP with confidence
  • Reliable, reproducible performance with virtually no carryover
  • Robust, cost-effective solution for routine NMP analysis
  • Seamless data processing and method control using SimplicityChrom™ CDS software

Whether you're scaling production or optimizing QA workflows, this method delivers dependable results that align with evolving standards in lithium-ion battery quality control.

Download the full application note to explore detailed parameters, calibration data, and performance outcomes.

 
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