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A multifunctional supramolecular polymer binder with hard/soft phase interaction for Si-based lithium-ion batteries

Jiaying Zhang, Lijing Yan, Yue Zhao, Yitian Su, Jiaze Sun, Hong-Min Jiang, Tingli Ma

2024Nano Energy38 citationsDOIOpen Access PDF

Abstract

Single-function binders may not fulfill the diverse application requirements of Si , binder design strategy is reconginzed as an effective way to imrove the performance of Si-based anodes for lithium-ion batteries. In this study, a novel multifunctional polymer binder BDSA–DPA–PEGCE (BDP) incorporated by hard/soft interacting phases was designed. The hard domain of the BDP polymer binder is achieved through reversible covalent disulfide exchange, supramolecular noncovalent cooperative H-bonding, and π-π interactions, endowing self-healing ability and enhanced mechanical properties to maintain Si anodes integrity. The soft phase is dominated by the polyether segment, establishing efficient ion-hopping transportation pathways. Meanwhile, the pre-lithiation strategy is employed for compensating the consumption of Li resources. The volume expansion of the Si-based electrodes coordinated by the BDP binder is effectively suppressed, realizing improved cycling stability, high initial coulombic efficiency of 85.2%, and superior rate performance for Si-based half–cells and NCM523//Si/C full–cells. The BDP binder also promotes the formation of dense, stable and homogeneous SEI layer. This work offers valuable insights for developing multifunctional polymer binders to satisfy the specific demands of Si-based electrodes for rechargeable batteries.

Topics & Concepts

Materials scienceLithium (medication)IonPolymerSupramolecular chemistryPhase (matter)NanotechnologyChemical engineeringSoft materialsComposite materialOrganic chemistryCrystal structureMedicineChemistryEngineeringEndocrinologyAdvancements in Battery MaterialsSupercapacitor Materials and FabricationAdvanced Battery Materials and Technologies
A multifunctional supramolecular polymer binder with hard/soft phase interaction for Si-based lithium-ion batteries | Litcius