In this study, we focus on how to deploy a stable suspension of conductive ink, to enhance the attachment of ink onto the substrate, and to seek the best conditions for printing quality. We intend to develop good quality oil-based conductive inks with chemical synthesis and surface modification technology to deploy a stable dispersion solution system. The stability mechanism and related applications were detailedly discussed, such as the use of prepared dispersion solution to produce a conductive film, and further to obtain a conductive pattern. In the experiment, silver nitrate was used as the metal precursor and ascorbic acid was added as the reducing agent with the addition of the surfactant and the protective agent. Through a series of formulations to adjust, we developed the oil-based conductive ink, whose suspension could maintain stable more than one year with no obvious precipitates. The ink was coated onto a glass slide via drop casting method, and then the film was placed at high sintering temperature of 250 with a sheet resistance of lower than 0.6 Ω / sq. We also via Desktop Dispensing Robot to prepare the conductive pattern with resistance of 3 Ω.