To address the serious capacity fading in lithium-sulfur batteries, we present here a three-dimensional ferroconcrete-like aminated carbon nanotubes network with polyaniline coating as an effective sulfur host to contain polysulfide dissolution. In this composite, the cross-linked aminated carbon nanotubes framework provides a fast charge transport pathway and enhancement in the reaction kinetics of the active material to greatly improve the rate capability and sulfur utilization. The ethylenediamine moieties provide strong adhesion of polar discharge products to nonpolar carbon surface and thus efficiently prevent polysulfides dissolution to improve the cycle stability, confirmed by density functional theory calculations. The outside polyaniline layers structurally restrains polysulfides to prevent the shuttle effect and active material loss. Benefiting from these advantages, the synthesized composite exhibits a high initial capacity of 1215 mAh g-1 and a capacity of 975 mAh g-1 after 200 cycles at 0.2C. Even after 200 cycles at 0.5C, a capacity of 735 mAh g-1 can be maintained, among the best performance reported. Our strategy in this work can shed some light on modifying nonpolar carbon surfaces via the amination process to chemically attach sulfur species for high performance lithium-sulfur batteries