There is a growing need for advanced analytical tools in reverse engineering and deconstruction of high-performance materials, especially for understanding their Composition-Property-Processing (CPP) relationship. Conventional characterization methods rely on spectroscopic and microscopic techniques to uncover their composition. Further, the lack of elemental, molecular, and structure composition methods to quantitatively analyze chemical composition can also present a bottleneck in R&D development.
See how Pyrolysis-GC/MS has become a vital tool in elucidating CPP relationships, along with IR, NMR, SEM, and TEM methods. We’ll be joined by Dr. Rigoberto Advincula, an industry-recognized leader in the research of advanced materials, polymers, and nanomaterials. Leveraging his most-recent research data and insights, we’ll demonstrate how Pyrolysis-GC/MS completes deformulation faster with augmented data and interpretation.
Learning Objectives:
Sponsored by:
See how Pyrolysis-GC/MS has become a vital tool in elucidating CPP relationships, along with IR, NMR, SEM, and TEM methods. We’ll be joined by Dr. Rigoberto Advincula, an industry-recognized leader in the research of advanced materials, polymers, and nanomaterials. Leveraging his most-recent research data and insights, we’ll demonstrate how Pyrolysis-GC/MS completes deformulation faster with augmented data and interpretation.
Learning Objectives:
- What is meant by the "Composition-Property-Processing (CPP) relationship," and how it fits into the discussion of material characterization
- How Pyrolysis-GC/MS compares with convention methods for material characterization
- How to perform deformulation analysis rapidly with augmented data and interpretation
- Gain insight into applied research examples, including polyesters, polyurethanes, polypropylene, and polyacrylates
Sponsored by: