[1] Morshed, R. and Zeraatiyan M.S., 2018, "Self-healing concrete", Third concrete conference of Iran, Tehran, Iran.
[2] Chen, H., Qian, C. and Huang, H., 2016. Self-healing cementitious materials based on bacteria and nutrients immobilized respectively. Construction and Building Materials, 126, pp.297-303.
[3] Luo, M. and Qian, C., 2016. Influences of bacteria-based self-healing agents on cementitious materials hydration kinetics and compressive strength. Construction and Building Materials, 121, pp.659-663.
[4] Luo, M., Qian, C.X. and Li, R.Y., 2015. Factors affecting crack repairing capacity of bacteria-based self-healing concrete. Construction and building materials, 87, pp.1-7.
[5] Wang, J.Y., Snoeck, D., Van Vlierberghe, S., Verstraete, W. and De Belie, N., 2014. Application of hydrogel encapsulated carbonate precipitating bacteria for approaching a realistic self-healing in concrete. Construction and Building Materials, 68, pp.110-119.
[6] Xu, J. and Yao, W., 2014. Multiscale mechanical quantification of self-healing concrete incorporating non-ureolytic bacteria-based healing agent. Cement and concrete research, 64, pp.1-10
[7] Williams, S.L., Kirisits, M.J. and Ferron, R.D., 2017. Influence of concrete-related environmental stressors on biomineralizing bacteria used in self-healing concrete. Construction and Building Materials, 139, pp.611-618.
[8] Wiktor, V. and Jonkers, H.M., 2011. Quantification of crack-healing in novel bacteria-based self-healing concrete. Cement and Concrete Composites, 33(7), pp.763-770.
[9] Jonkers, H.M., Thijssen, A., Muyzer, G., Copuroglu, O. and Schlangen, E., 2010. Application of bacteria as self-healing agent for the development of sustainable concrete. Ecological engineering, 36(2), pp.230-235.