In this research, a series of bigels were prepared by incorporating a beeswax-based oleogel and basil seed mucilage- based hydrogels in different ratios. The effect of several oleogel/hydrogel combinations on the physical features and 3D printing capability of the resulting bigels was evaluated. FTIR results of several bigels showed significant variations between 3500-3300 cm-1 (hydroxyl groups) and 1150-990 cm-1 (stretching of C-O and C-O-C bonds). The bigels displayed a shear-thinning characteristic and demonstrated enhanced mechanical properties, such as apparent viscosity, storage modulus, and firmness compared to both pure oleogel and pure hydrogel. According to the thermogravimetric analysis (TGA) results, the weight loss in bigel formulations was faster compared to hydrogels. Bigels with an oleogel/hydrogel ratio of 70:30 exhibited favorable mechanical properties suitable for 3D printing. The findings of this research demonstrate that it is possible to produce 3D printable bigels by blending beeswax (organogelators) with basil seed mucilage (hydrogelator). Furthermore, the characteristics and printing capabilities of these bigels can be customized by adusting the ratios of oleogel to hydrogel.