A series of alternating pyridyl-tetra-cyclicurea oligomers 7, 10, 15 and 16 in different length were successfully synthesized by Buchwald amidation. Investigations on the protonation behaviors and conformational preference of these compounds by proton-induced strategy with TfOH were performed. Upon protonation, the 13C NMR chemical shifts changed to be close to or higher than 10 ppm that confirms the full protonation under TfOH. In addition, the relative NOE correlations between the pyridine rings and urea group were observed in NOESY experiments after protonation which reveals the conformation of protonated oligourea were folded into helical structure by intramolecular hydrogen bonding. By incorporation of chiral amide to the end of oligourea, the partial protonated intermediate on terminal pyridine was observed. Upon further addition of TfOH, a new secondary cotton effect absorption produced between pyridinium rings appeared in the CD spectra. Evidenced by CD measurements, the chiral oligourea can shift the equilibrium between the right- and left-handed helical strands after protonation. The crystal structure of 19-(H+)3.H2O reaveals a successive curved part and water molecules are encapsulated by two folded strands that played a critical role in stabilization of positive charges inside the cavity.