%X Spontaneous self-healing is an imperative requisite for sustaining the structural life of cementitious composites substituting the fissures and pores by restricting the ingress of hazardous chemicals. The intrinsic self-healing ability of cementitious composites is inadequate that enforcing the submissions of extrinsic self-healing for imparting resilience, durability and survivability. Profoundly, robust extrinsic self-healing action can be accomplished by arresting the cracks at the nano-level via inhibiting their progression at micro- and macro-levels. The exceptional chemical and physical configuration of nanomaterials facilitates their potential application as self-healing agent for inducing inherent self-healing characteristics inside the cementitious composites at nano-level. These self-healing nano-modificient includes expansive agents, nano-polymers, secondary raw materials, nano-metallic and nano-chemical insertions. However, the applications of these nano-modificent agents are explored in the refining of structural, mechanical and electromechanical properties of concrete, extensively. Owing to development of biological self-healing concrete, a scientific shift has been observed in attaining self-healing at nano-level. In this review, the existing application of nano-modificent agents for imparting self-healing characteristics inside the cementitious systems is discussed in addition to future challenges and prospects. © 2022, King Fahd University of Petroleum & Minerals.
%D 2022
%N 4
%R 10.1007/s13369-022-06562-6
%O cited By 7
%J Arabian Journal for Science and Engineering
%L scholars16941
%T Self-Healing Nano-Concrete for Futuristic Infrastructures: A Review
%I Springer Science and Business Media Deutschland GmbH
%A N. Shaheen
%A R.A. Khushnood
%A M.A. Musarat
%A W.S. Alaloul
%V 47
%P 5365-5375