Geotechnical research has been yearning for revolutionary innovations that could bring
breakthroughs to conventional practices, especially at a time when energy efficiency and …

Concrete, one of the most important building materials, has been in use for nearly two
hundred years and will likely continue to be the dominant building material for the …

Abstract Underground hydrogen (H 2) storage (UHS) and carbon dioxide (CO 2) geo-
storage (CGS) are prominent methods of meeting global energy needs and enabling a low …

Microbially induced calcite precipitation (MICP) is used increasingly to improve the
engineering properties of granular soils that are unsuitable for construction. This shows …

Microbially induced calcium carbonate precipitation (MICCP) is a naturally occurring
biological process in which microbes produce inorganic materials as part of their basic …

Inducing calcium carbonate precipitation is another important function of urease in nature.
The process takes advantage of the supply of carbonate ions derived from urea hydrolysis …

Microbially-induced calcium carbonate (CaCO3) precipitation (MICP) is a widely explored
and promising technology for use in various engineering applications. In this review, CaCO3 …

Studies of soil improvement by microbial-induced calcite precipitation (MICP) have focused
primarily on fine sand. This paper explores the viability of the MICP technique for improving …

For a long time in the practice of geotechnical engineering, soil has been viewed as an inert
material, comprising only inorganic phases. However, microorganisms including bacteria …

So far, researchers investigated microbially induced CaCO 3 precipitation (MICP) for soil
reinforcement, self-repairing concrete and Ca 2+ removal from industrial waste streams …