This thesis is to synthesize a zwitterionic carboxylate copolymer PD(mono(5-amino-2-(1-(2-((carboxylatomethyl)dimethylammonio)ethoxy)-1-oxopropan-2-yl)-4-methyl-5-oxopentanoate)) as a dispersant to improve the dispersion of graphene oxide(GO)in cement mortars and to promote the compressive strength of the cement-based materials. Experimentally, maleic anhydride and DMEA(N,N-dimethylethanolamine) was used to synthesize DME(3-((2-(dimethylamino)ethoxy)carbonyl)acrylic acid). Then, DME was reacted with 4-chlorobutyrate to obtain the monomer DCA (N,N-dimethyl(3-β-(carboxylate) acryloyl oxyethyl) ethanoate). Thereafter, PD copolymer was prepared from DCA and acrylamide(AM) through free radical polymerization by using ammonium persulphate as an initiator. FT-IR and 1H-NMR were used to identify the structure of PD, and GPC/SEC was used to determine the molecule weight of the prepared polymer. Besides, GOA was prepared from graphene using the modified Hummers method.The dispersion property of GOA in the artificial pore solution with PD was evaluated through the sedimentation test, viscosity measurements, size distribution and zeta potential test. The results indicated the sedimentation time of GO in the artificial pore solution increased with AM/DCA ratio of polymer first, reached a maximum value at AM/DCA=5, and then decreased afterwards. The sedimentation time of GO in the pore solution also increased first,reached a maximum value at M̅n=1.8×104, and then decreased afterwards. Namely, PD15b which has AM/DCA=5 and M̅n=1.8×104 showed the best performance. GO in the pore solution with 10 wt% PD15b was found to exhibit the longest sedimentation time, the lowest viscosity, the smallest particle size and highest absolute value of zeta potential of GO, which is 45 hours, 3.08 mPa·s, 127 nm, and -25.5 mV, respectively. Finally, the measured compressive strength of mortar with 0.05wt% GOA and 10wt% PD15b at 28days were 34.6MPa, which were 52.4% increased relative to the mortar without any dispersant or GOA present.