Oligosaccharides widely exist in organisms and are involved in many biological processes, such as cell-cell adhesion, cancer progression, host-pathogen interaction, and antibody recognition. In part I, chemical synthesis of the main hexasaccharide of complex type N-glycans was described. This hexasaccharide was installed asymmetric branching through protecting group engineering to enable selective enzymatic glycosylation for further diversification. A convergent synthetic pathway was performed with the chemical reactions tuned, and the effective constitution of the hexasaccharide was supported by several model studies of enzymatic reactions. Amine-amide differed glucosamine was found to be the valid differentiation for enzymatic elongation. Moreover, the hexasaccharide enables amino-linker coupling for immobilization and antibody coupling for glycan modification. In part II, chemical synthesis and immunological evaluation of capsular polysaccharide fragments of Streptococcus pneumoniae serotypes 6A and 6B were described. A library of eighteen oligosaccharides, derived from capsular repeating phosphorylated pseudo-tetrasaccharides, were built through systematic convergent synthesis. Eight of them were conjugated onto carrier protein and applied to mouse immunization for immunogenicity studies. Four pseudo-tetrasaccharides with phosphate elicited glycan-binding and opsonic antibodies, and the phosphate-bridged pseudo-tetrasaccharides exhibited cross-reactivity. The results provided potential development in synthetic pneumococcal conjugate vaccines.