New learning discoveries about 2,2′-Disulfanediyldiethanamine dihydrochloride

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An article Interfacial Liquid-Liquid Phase Separation-Driven Polymerization-Induced Electrostatic Self-Assembly WOS:000665741600027 published article about VISIBLE-LIGHT; COMPLEX COACERVATION; RAFT POLYMERIZATION; COPOLYMER VESICLES; NANOPARTICLES; MONOMERS; SEQUENCE; WATER in [Wang, Ye; Li, Chao; Ma, Lei; Wang, Xiyu; Wang, Kai; Lu, Xinhua; Cai, Yuanli] Soochow Univ, Coll Chem Chem Engn & Mat Sci, State Local Joint Engn Lab Novel Funct Polymer Ma, Suzhou 215123, Peoples R China in 2021.0, Cited 54.0. The Name is 2,2′-Disulfanediyldiethanamine dihydrochloride. Through research, I have a further understanding and discovery of 56-17-7. COA of Formula: C4H14Cl2N2S2

Development of spatially restricted liquid-liquid phase separation (LLPS) systems emulating biomolecular condensates is a major challenge in coacervating materials science, due to lack of approaches for spatially restricted coacervation of sequence-defined zwitterionic segments resembling intrinsically disordered proteins. Herein, we present interfacial LLPS-driven polymerization-induced electrostatic self-assembly, namely, interfacial LLPS-PIESA. The asymmetric charge sequence patterning of zwitterionic growing segments is achieved via spontaneous polymerization of ion-pair monomers within a nanopartide core-shell interface. We show that charge sequence can profoundly affect the self-coacervation, leading to droplet dispersions, dense coacervates, and free-standing hydrogels. Moreover, the interfacial LLPS-PIESA shows a programmed hierarchical condensation self-assembly mechanism involving vesicles-to-lamellae transition, interfacial self-coacervation, lamellae-to-sheets transition, layer-by-layer sheet self-assembly, spatially restricted condensation and agglomeration, and redispersing into fibril network condensates under dynamic evolving surface charge regulation. The spatially restricted asymmetric charge sequence patterning, interfacial self-coacervation, and programmed hierarchical condensation self-assembly, all these elements can serve as the primary principles for the asymmetric charge sequence patterning design of hierarchically nanostructured condensates that emulate cellular biomolecular condensates.

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Reference:
Thiazine – an overview | ScienceDirect Topics,
,Thiazine | C4H5NS – PubChem