Immunotherapy has become a powerful clinical strategy for treating infectious diseases and cancer. Synthetic small-molecule toll-like receptor 7 (TLR7) ligands are attractive candidates as immunostimulatory agents for immunotherapy. TLR7 is mainly localized in intracellular endosomal compartments so that the formulation of their small-molecule ligands with macromolecules enhances endocytic uptake of TLR7 ligands and improves the pharmaceutical properties. Previously, we demonstrated that gold nanoparticles co-immobilized with a TLR7 ligand derivative, that is, a conjugate of synthetic small-molecule TLR7 ligand (1V209) and thioctic acid (TA) via 4,7,10-trioxa-1,13-tridecanediamine, and α-mannose (1V209-αMan-GNPs: glyco-nanoadjuvants) significantly enhances immunostimulatory effects. In the present study, we designed a second-generation glyco-nanoadjuvant that possesses a poly(ethylene glycol) (PEG) chain as a spacer between 1V209 and GNPs and investigated the impact of linker length in 1V209 derivatives on the immunostimulatory activities. We used different chain lengths of PEG ( = 3, 5, 11, or 23) as spacers between 1V209 and thioctic acid to prepare four 1V209-αMan-GNPs. In the study using primary mouse bone-marrow-derived dendritic cells, 1V209-αMan-GNPs that immobilized with longer 1V209 derivatives, especially the 1V209 derivative possessing PEG23 (1V209-PEG23-TA), showed the highest potency toward induction both for interleukin-6 and type I interferon production than those derivatives with shorter PEG chains. Furthermore, 1V209-αMan-GNPs that immobilized with 1V209-PEG23-TA showed significantly higher adjuvant effects for inducing both humoral and cell-mediated immune responses against ovalbumin in the immunization study. These results indicate that the linker length for immobilizing small-molecule TLR7 ligand on the GNPs significantly affects the adjuvant activity of 1V209-αMan-GNPs and that 1V209-αMan-GNPs immobilized with 1V209-PEG-23-TA could be superior adjuvants for immunotherapies.