3D Imaging of Electro-spun Fibre

• Internal layering, fibre stratification, and interfacial zones are clearly resolved in situ.
• Enables depth-resolved, label-free visualisation of fibre mats, revealing structural transitions and spatial logic critical to engineered performance in multilayered systems.

Collagen Fibre

• Individual collagen fibres, alignment patterns, and density variations are clearly resolved without staining.
• Enables high-contrast, preparation-free imaging of fibrous extracellular structures in native conditions.

Self-Assembled Peptides

• Rod-like fibres, clustered assemblies, and internal heterogeneity are clearly resolved, revealing detailed morphology of peptide-based networks.
• Enables label-free imaging of nanostructured materials relevant to hydrogels, bioinks, and amyloid research.

Electrospun PCL Fibre

• Individual strands, intersections, and network texture of electro-spun PCL mats are clearly visualised under ambient conditions.
• Enables rapid, label-free assessment of fibre alignment and morphology—ideal for quality control and biomedical scaffold evaluation.