Aiming to develop an effective catalytic process for utilizing biomass, conversion of corncob into furfural was firstly performed using tin-loaded bentonite (Sn-BTN) as solid acid catalyst. Corncob was pretreated with Sn-BTN (3.5 wt%) for producing furfural at 53.3% yield in methyl isobutyl ketone-water (5:5, v:v; pH 1.0) biphasic media within 0.5 h at 170 degrees C. Furthermore, an efficient Sn-BTN recycling was achieved after 5 cycles of repeated use. Finally, furoic acid was obtained at 53.3% yield from corncob via sequential catalysis with solid acid Sn-BTN and Brevibacterium lutescens whole cells harboring furfural-oxidizing activity in methyl isobutyl ketone-H2O (5:5, v:v) media was developed under the relatively mild conditions. Clearly, this hybrid strategy for the synthesis of furoic acid from biomass was successfully developed via tandem catalysis of corncob with Tin-loaded bentonite and Brevibacterium lutescens whole-cell.