Litcius/Paper detail

Phase Separation Behavior in Tough and Self-Healing Polyampholyte Hydrogels

Kunpeng Cui, Ya Nan Ye, Tao Lin Sun, Chengtao Yu, Xueyu Li, Takayuki Kurokawa, Jian Ping Gong

2020Macromolecules104 citationsDOIOpen Access PDF

Abstract

Polyampholyte hydrogels (PA gels) are drawing great attention for their excellent mechanical properties including self-healing, high toughness, and fatigue resistance. These mechanical performances are found to be attributed to the hierarchical structure of the PA gels, consisting of reversible ionic bonds at the 1 nm scale, permanent polymer network at the 10 nm scale, and bicontinuous phase network at the 100 nm scale. In this work, we systematically studied the phase network formation of these gels aiming to answer the following three questions: (1) how the phase separation occurs? (2) what determines the phase structure? and (3) is this structure in thermodynamic equilibrium or not? Our results show that the phase separation occurs during dialysis of counterions from the gels and it is driven by the Coulombic and hydrophobic interactions. The phase size d0 and the number of aggregated chains in a unit cell of the phase structure n scale with the molecular weight of the partial chain between permanent effective cross-linking Meff as d0 ∼ Meff and n ∼ Meff2, respectively. A chemical cross-linker and topological entanglement suppress phase separation, while hydrophobic interaction favors phase separation. An intrinsic correlation between the polymer density difference (Δρ) between two phases and d0 is observed (Δρ ∼ d02) as a result of the competition between the driving force to induce phase separation and the resistance to suppress the phase separation. The phase-separated structure is metastable, which is locally trapped by strong intermolecular interactions.

Topics & Concepts

Phase (matter)Self-healing hydrogelsChemical physicsPolymerChemical engineeringMaterials scienceCounterionIntermolecular forceIonic bondingChemistryPolymer chemistryMoleculeComposite materialOrganic chemistryIonEngineeringHydrogels: synthesis, properties, applicationsPolymer composites and self-healingAdvanced Sensor and Energy Harvesting Materials
Phase Separation Behavior in Tough and Self-Healing Polyampholyte Hydrogels | Litcius