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Concentration-driven phase transition and self-assembly in drying droplets of diluting whole blood

Anusuya Pal, Amalesh Gope, John D. Obayemi, Germano S. Iannacchione

2020Scientific Reports23 citationsDOIOpen Access PDF

Abstract

Multi-colloidal systems exhibit a variety of structural and functional complexity owing to their ability to interact amongst different components into self-assembled structures. This paper presents experimental confirmations that reveal an interesting sharp phase transition during the drying state and in the dried film as a function of diluting concentrations ranging from 100% (undiluted whole blood) to 12.5% (diluted concentrations). An additional complementary contact angle measurement exhibits a monotonic decrease with a peak as a function of drying. This peak is related to a change in visco-elasticity that decreases with dilution, and disappears at the dilution concentration for the observed phase transition equivalent to 62% (v/v). This unique behavior is clearly commensurate with the optical image statistics and morphological analysis; and it is driven by the decrease in the interactions between various components within this bio-colloid. The implications of these phenomenal systems may address many open-ended questions of complex hierarchical structures.

Topics & Concepts

DilutionColloidPhase transitionChemical physicsFunction (biology)Elasticity (physics)Phase (matter)ChemistryNanotechnologyMaterials scienceThermodynamicsChromatographyPhysicsPhysical chemistryOrganic chemistryBiologyEvolutionary biologyNanomaterials and Printing TechnologiesProteins in Food SystemsMicroencapsulation and Drying Processes
Concentration-driven phase transition and self-assembly in drying droplets of diluting whole blood | Litcius