1. On-line microfluidic immobilized-enzyme reactors: A new tool for characterizing synthetic polymers.
- Author
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Wouters B, Pirok BWJ, Soulis D, Garmendia Perticarini RC, Fokker S, van den Hurk RS, Skolimowski M, Peters RAH, and Schoenmakers PJ
- Subjects
- Enzymes, Immobilized chemistry, Enzymes, Immobilized metabolism, Lab-On-A-Chip Devices, Polymers chemical synthesis, Polymers chemistry
- Abstract
Biodegradable polymeric materials may eventually replace biostable materials for medical applications, including therapeutic devices, scaffolds for tissue engineering, and drug-delivery vehicles. To further develop such materials, a more fundamental understanding is necessary to correlate parameters including chemical-composition distribution within a macromolecular structure with the final properties of the material, including particle-size. A wide variety of analytical techniques have been applied for the characterization of polymer materials, including hyphenated techniques such as comprehensive two-dimensional liquid chromatography (LC × LC). In this context, we have investigated enzymatic degradation of polyester-based nanoparticles, both in-solution and by the use of an immobilized-enzyme reactor (IMER). We have demonstrated for the first time the implementation of such an IMER in a size-exclusion chromatography system for on-line degradation and subsequent analysis of the polymer degradation products. The effect of residence times ranging from 12 s to 4 min on polymer degradation was assessed. IMER-assisted degradation is much faster compared to in-solution degradation, which requires several hours to days, and opens the possibility to use such reactors in LC × LC modulation interfaces., (Copyright © 2018 Elsevier B.V. All rights reserved.)
- Published
- 2019
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