To achieve an ultra-low concentration formaldehyde detection at low temperature, a platinum (Pt) assisted TiO 2 hierarchical nano blooming-flower sphere material is synthesized through hydrothermal method. SEM and transmission electron microscope characterizations show that the diameter of the nano sphere was around 2 μm with dissilient rods of 60 nm in diameter and 1 μm in length on the surface. The response (R a /R g ) achieved form this nanomaterial to HCHO is 1.08 (100 ppb) and 5.82 (5 ppm) at 130 °C without an involvement of any light source or solution. The relationship curve between the responses and concentrations shows regular exponential trend. The verification of sensor stability done by a 3 month reliability test shows no response-degradation. The optimal response and stability is attributed to the massive dissilient rods on the surface of TiO 2 spheres and the assistance of Pt as a catalyzer disperses to intensify the formation of depletion area on the surface of TiO 2 . This study provide an attractive and cost effective solution for the detection of HCHO in air at a relatively low temperature.