Most cancer cell lines overexpress specific glycan antigens. Particularly, Globo H, SSEA-3, SSEA-4 of Globo series epitopes are found in at least 16 different types of cancer cell lines but not found in normal ones. The probability of finding one of the three Globo series epitopes in the 16 different types of cancer cell lines is up to 70%. Therefore, they are regarded as potential anticancer vaccine candidates. Most vaccine-associated studies were designed to elicit immune response to a single therapeutic target based on the uniqueness of each antigen. In 2013, our group published a Globo H-DT anticancer vaccine, which could simultaneously induce antibodies against Globo H, SSEA-4, and SSEA-3 antigens, but mostly against Globo H and SSEA-3. To have a universal anti-cancer vaccine, we designed a multivalent vaccine and hope it can induce immune response to all three specific glycan antigens with significantly binding. This multivalent anticancer vaccine can be used to simultaneously target different types of cancer. In this study, we combined two glycan antigens and conjugated the combined antigens with carrier protein to form our target product. In order to evenly attach Globo H and SSEA-4 glycan antigens on the carrier protein, we connected Globo H and SSEA-4 with a short peptide to ensure equal proportions of both antigens. Finally, the glycopeptides were conjugated with the carrier protein CRM-197 (DT) to increase the immunity of this cancer vaccine candidate. We anticipate that this vaccine will be used for early stage treatment and even preventive application.