Carbohydrates and glycoconjugates are crucial in numerous biological processes. N-Acetyllactosamine (LacNAc)-containing glycans are frequently found in various glycoforms, such as Lewis antigens and ABH-blood groups. To further understand the structure–activity relationships (SARs), it is necessary to prepare LacNAc-containing oligosaccharides with structurally defined patterns. Although enzyme synthesis provides the adventages of regio- and stereo- selectivity, chemical synthesis offers excellent flexibility and is suitable for large-scale preparation. We previously developed an efficient method to prepare Gal- β1,3/4-GlcNAc disaccharides with orthogonally protecting groups. To prepare TypeⅠLacNAc -containing saccharides of longer chains in high total yields, we applied one-pot programmable synthesis of oligosaccharides which relies on relative reactivity values (RRVs) of sugar donors to decide how glycans are assembled. Because the reactions utilize S-tolyl glycosides as glycosyl donors and acceptors, it is critical to know the reactivity of donors, acceptors and intermediate products to prevent undesirable reactions. First, We measured the RRVs of galactoside donors and the corresponding disaccharide products. The results indicated that one-pot glycosylation requires the RRVs of glycosyl donors to be higher than those of acceptors and products, to avoid further complications. Furthermore, we accomplished that the stepwise synthesis [1+1+2] to afford typeⅠtetrasaccharides (i.e. Galβ-1,3-GlcNAcβ-1,3-Galβ-1,3-GlcNAc) in an one-pot manner. We also seeked the possibility to use s-tolyl glycosides as glycosyl donors and acceptors, which allows iterative glycosylation to synthesize longer glycan chains.