This thesis has prepared two zwitterionic superabsorbent hydrogels, i.e., Poly(acrylamide-co-sulfobetaine) (P(AM/SB)) and Poly(acrylamide- co-sulfobetaine)/slag (P(AM/SB)/SG). FT-IR was used to identify the functional groups of the hydrogel. The effects of monomer ratio, initiator and crosslinker dosage, and slag content on the water absorbency of the resulted hydrogel in various aqueous solutions were studied and discussed. P(AM/SB) hydrogel was added into cementitious materials. The effects of monomer ratio and Slag content on the weight loss, compressive strength, internal humidity and drying shrinkage in mortars, and the cracking index in cement pastes were determined and discussed. The results indicated that the highest water absorbency of all tested hydrogels were 48.4, 49.3 and 53.9 g/g in water, 0.1M NaCl(aq) and 0.1M CaCl2(aq), repectively. P(AM/SB)/SG hydrogel with 0.2 wt% dosage, particle size of 0.082 mm and 15 wt% Slag showed the best performance in cementitious materials. Namely, this polymer could decrease the weight loss and drying shrinkage, and increase the compressive strength and internal humidity in mortars, and reduce the craking formation in cement pastes. Keywords: zwitterionic, hydrogel, synthesis, slag, mortar, water absorbency, compressive strength, internal humidity, drying shrinkage.