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Nano-structural stiffness measure for soft biomaterials of heterogeneous elasticity

Shu‐wen W. Chen, Jean‐Marie Teulon, Harinderbir Kaur, Christian Godon, Jean‐Luc Pellequer

2022Nanoscale Horizons20 citationsDOIOpen Access PDF

Abstract

) globally unambiguously distinguish the softness between the two gel categories. Data fluctuations were observed in the elasticity parameters of individual samples, reflecting nanostructural variations in the gel matrix. Similar tendencies were found in the results from growing plant roots, though the data fluctuations are expectedly much more dramatic. The zone-wise representation of stiffness by the trimechanic-3PCS framework demonstrates a stiffness measure that reflects beneath nanostructures encountered by deepened depth. The trimechanic-3PCS framework can apply any mechanical model of power-law based force-depth relationship and is compatible with thin layer corrections. It provides a new paradigm for analyzing restoring nanomechanics of soft biomaterials in response to indenting forces.

Topics & Concepts

NanomechanicsStiffnessElasticity (physics)Materials scienceNanoindentationComposite materialNano-Measure (data warehouse)NanotechnologyAtomic force microscopyComputer scienceData miningForce Microscopy Techniques and ApplicationsCellular Mechanics and InteractionsAdvanced machining processes and optimization
Nano-structural stiffness measure for soft biomaterials of heterogeneous elasticity | Litcius