Binders are crucial for maintaining the integrity of an electrode, and there is a growing need for integrating multiple desirable properties into the binder for high-energy batteries, yet significant challenges remain. Here, we successfully synthesized a new binder by cross-linking sodium alginate (SA) with MXene materials (TiCT). Besides the improved adhesion and mechanical properties, the integrated SA@TiCT binder demonstrates much improved electronic conductivity, which enables ruling out the fluffy conductive additive from the electrode component with enhanced volumetric capacity. When SA@TiCT is used to fabricate sulfur (S) cathodes, the conductive-additive-free electrode demonstrates extremely high capacity (1422 mAh cm/24.5 mAh cm) under an S loading of 17.2 mg cm for Li-S batteries. Impressively, the SA@TiCT binder shows remarkable feasibility in other battery systems such as Na-S and LiFePO batteries. The proposed strategy of constructing a cross-linking conductive binder opens new possibilities for designing high-mass-loading electrodes with high volumetric capacity.
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