[2] [2] WU Q Y, XUE Q Z, YU Z Q. Research status of super sulfate cement[J]. J Clean Prod, 2021, 294: 126228.

[3] [3] MASOUDI R, HOOTON R D. Examining the hydration mechanism of supersulfated cements made with high and low-alumina slags[J]. Cem Concr Compos, 2019, 103: 193–203.

[4] [4] IOANNOU S, BADR A, KOSTOVA K, et al. Utilization of fabric formwork for improving the durability of concrete from supersulfated cement[J]. Key Eng Mater, 2016, 711: 615–621.

[5] [5] ZHOU Y, PENG Z C, CHEN L C, et al. The influence of two types of alkali activators on the microstructure and performance of supersulfated cement concrete: Mitigating the strength and carbonation resistance[J]. Cem Concr Compos, 2021, 118: 103947.

[6] [6] CHEN Z H, DENG S B, WEI H R, et al. Activated carbons and amine-modified materials for carbon dioxide capture—A review[J]. Front Environ Sci Eng, 2013, 7(3): 326–340.

[7] [7] SHAFEEYAN M S, DAUD W M A W, HOUSHMAND A, et al. Ammonia modification of activated carbon to enhance carbon dioxide adsorption: Effect of pre-oxidation[J]. Appl Surf Sci, 2011, 257(9): 3936–3942.

[9] [9] TAN Y L, ISLAM M A, ASIF M, et al. Adsorption of carbon dioxide by sodium hydroxide-modified granular coconut shell activated carbon in a fixed bed[J]. Energy, 2014, 77: 926–931.

[10] [10] HAMAD HEBA M A. Modification and performance of activated carbon for CO2 sequestration in pervious concrete[D]. Cambridge, East of England, UK: University of Cambridge, 2019

[11] [11] STEINER S, LOTHENBACH B, PROSKE T, et al. Effect of relative humidity on the carbonation rate of portlandite, calcium silicate hydrates and ettringite[J]. Cem Concr Res, 2020, 135: 106116.

[12] [12] PINTO S R, ANGULSKI DA LUZ C, MUNHOZ G S, et al. Resistance of phosphogypsum-based supersulfated cement to carbonation and chloride ingress[J]. Constr Build Mater, 2020, 263: 120640.

[14] [14] LOTHENBACH B, SCRIVENER K, SNELLINGS R. A practical guide to microstructural analysis of cementitious materials[M]. Boca Raton: CRC Press, 2016.

[15] [15] LOTHENBACH B, NONAT A. Calcium silicate hydrates: Solid and liquid phase composition[J]. Cem Concr Res, 2015, 78: 57–70.

[18] [18] HWANG K Y, KIM J Y, PHAN H Q H, et al. Effect of CO2 concentration on strength development and carbonation of a MgO-based binder for treating fine sediment[J]. Environ Sci Pollut Res, 2018, 25(23): 22552–22560.

[19] [19] DI FIDIO N, LICURSI D, PUCCINI M, et al. Closing a biorefinery cycle of giant reed through the production of microporous and reusable activated carbon for CO2 adsorption[J]. J Clean Prod, 2023, 428: 139359.

[20] [20] MATSCHEI T, BELLMANN F, STARK J. Hydration behaviour of sulphate-activated slag cements[J]. Adv Cem Res, 2005, 17(4): 167–178.

[21] [21] XIE Y F, SUN T, SHUI Z H, et al. The impact of carbonation at different CO2 concentrations on the microstructure of phosphogypsum- based supersulfated cement paste[J]. Constr Build Mater, 2022, 340: 127823.

[23] [23] HAN Y S, HADIKO G, FUJI M, et al. Crystallization and transformation of vaterite at controlled pH[J]. J Cryst Growth, 2006, 289(1): 269–274.

[25] [25] ZHANG Y, OPUROLU O. The role of hydrotalcite-like phase and monosulfate in slag cement paste during atmospheric and accelerated carbonation[J]. Cem Concr Compos, 2022, 132: 104642.

[26] [26] SEVELSTED T F, SKIBSTED J. Carbonation of C–S–H and C–A–S–H samples studied by 13 C, 27 Al and 29 Si MAS NMR spectroscopy[J]. Cem Concr Res, 2015, 71: 56–65.

[27] [27] RUBERT S, ANGULSKI DA LUZ C, VARELA M V F, et al. Hydration mechanisms of supersulfated cement[J]. J Therm Anal Calorim, 2018, 134(2): 971–980.

[29] [29] WU B, YE G. Development of porosity of cement paste blended with supplementary cementitious materials after carbonation[J]. Constr Build Mater, 2017, 145: 52–61.

[30] [30] JUSTO-REINOSO I, SRUBAR W V III, CAICEDO-RAMIREZ A, et al. Fine aggregate substitution by granular activated carbon can improve physical and mechanical properties of cement mortars[J]. Constr Build Mater, 2018, 164: 750–759.

[31] [31] TIONG M, GHOLAMI R, ABID K, et al. Nanomodification: An efficient method to improve cement integrity in CO2 storage sites[J]. J Nat Gas Sci Eng, 2020, 84: 103612.

[32] [32] LI J Y, CHANG J. Effect of crystal/amorphous ratio on mechanical properties in a C4A3$-C2S hydration system with or without gypsum addition[J]. Constr Build Mater, 2019, 208: 36–45.