Surfactant-free and binder-free antimony-doped tin oxide(ATO) transparent conducting thin films were fabricated through spin coating and rapid annealing processes,in which nanosheets were assembled into a compact structure via self-contracting high pressure.The mechanism of this compact thin film formation was further proposed and analyzed.The compact ATO thin film had a low root mean square(RMS) roughness of 5.03 nm.This surfactant-free and binder-free compact ATO thin film delivered low resistivity of 3.04×10~(-2) Ω cm,stable resistivity which only increased 13%after exposing in 65%RH air for half a month,high transmittance of 92.70%at 550 nm,and high band gap energy of 4.07 eV.This effective strategy will provide new insight into the synthesis of low-cost and high-performance compact thin films. Surfactant-free and binder-free antimony-doped tin oxide (ATO) transparent conducting thin films were fabricated through spin coating and rapid annealing processes, in which nanosheets were assembled into a compact structure via self-contracting high pressure. The mechanism of this compact Thin film formation was further proposed and analyzed. The compact ATO thin film had a low root mean square (RMS) roughness of 5.03 nm. This surfactant-free and binder-free compact ATO thin film delivered low resistivity of 3.04 × 10 ~ 2) Ω cm, stable resistivity which only increased 13% after exposure in 65% RH air for half a month, high transmittance of 92.70% at 550 nm, and high band gap energy of 4.07 eV. This effective strategy will provide new insight into the synthesis of low-cost and high-performance compact thin films.