The La-Sr-Mn-O films were deposited on Si(100) substrates by DC magnetron sputtering and followed by air annealing at 973 K for 1 h.The microstructure and temperature dependence of total hemispherical emittance ( H) of the annealed La-Sr-Mn-O films prepared at various processing parameters were investigated.The results indicated the films deposited at lower sputtering pressure and lower O2/(O2+Ar) volume proportion (RO) were present in rhombohedral perovskite structure and the length of Mn-O bond was shorter.The metal-insulator transition temperature (TMI) was higher.All of the annealed films showed the unique feature of variable emittance based on metal-insulator transition.The films showed low emittance at low temperature but high emittance at high temperature.Moreover,the H significantly changed in the vicinity of TMI.The variability of total hemispherical emittance (Δε) and the temperature range with obvious emittance change could be adjusted by changing the processing parameters.The Δεcould be 0.45 andΔε/ε355 ( 355 is the εH at 355K) exceeded 50% for the annealed La-Sr-Mn-O films.Therefore,the annealed La-Sr-Mn-O films showed much potential for thermal control applications as smart thermochro-mic variable emittance materials. The La-Sr-Mn-O films were deposited on Si (100) substrates by DC magnetron sputtering followed by air annealing at 973 K for 1 h. The microstructure and temperature dependence of total hemispherical emittance (H) of the annealed La- Sr-Mn-O films prepared at various processing parameters were investigated. These results indicated the films deposited at lower sputtering pressure and lower O2 / (O2 + Ar) volume proportion (RO) were present in rhombohedral perovskite structure and the length of Mn- O bond was shorter. Metal-insulator transition temperature (TMI) was higher. All of the annealed films showed the unique feature of variable emittance based on metal-insulator transition. The films showed low emittance at low temperature but high emittance at high temperature .Moreover, the H significant changed in the vicinity of TMI. Variability of total hemispherical emittance (Δε) and the temperature range with obvious emittance change could be adjusted by changing the processing parameters The Δεcould be 0.45 and Δε / ε 355 (355 is the εH at 355K) exceeded 50% for the annealed La-Sr-Mn-O films. Beforefore the annealed La-Sr-Mn-O films showed much potential for thermal control applications as smart thermochro-mic variable emittance materials.