Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1428412 | Materials Science and Engineering: C | 2015 | 10 Pages |
•We optimized a methodology using ESEM to analyze biopolymer capsules.•This methodology allows analyzing original surface samples without any preparation.•No preparation artefact are introduced which would mask important surface details.•Morphological details and chemical contrast from the original surface are preserved.•Capsule shape, volume, surface roughness and coating quality were reliably evaluated.
The aim of this paper is to describe an optimized methodology to study the surface characteristics and internal structure of biopolymer capsules using scanning electron microscopy (SEM) in environmental mode. The main advantage of this methodology is that no preparation is required and, significantly, no metallic coverage is deposited on the surface of the specimen, thus preserving the original capsule shape and its surface morphology. This avoids introducing preparation artefacts which could modify the capsule surface and mask information concerning important feature like porosities or roughness. Using this method gelatin and mainly fatty coatings, difficult to be analyzed by standard SEM technique, unambiguously show fine details of their surface morphology without damage. Furthermore, chemical contrast is preserved in backscattered electron images of unprepared samples, allowing visualizing the internal organization of the capsule, the quality of the envelope, etc.… This study provides pointers on how to obtain optimal conditions for the analysis of biological or sensitive material, as this is not always studied using appropriate techniques. A reliable evaluation of the parameters used in capsule elaboration for research and industrial applications, as well as that of capsule functionality is provided by this methodology, which is essential for the technological progress in this domain.