As the use of hydrogen gas (H 2) as a renewable energy carrier experiences a major boost,
one of the key challenges for a constant supply is safe and cost-efficient storage of surplus H …

Cement industry is one of the main sources of greenhouse gases, which accounts for about
7% of global CO 2 emissions. Sequestration of CO 2 in cement-based materials is regarded …

Calcium carbonate represents a large portion of carbon reservoir and is used commercially
for a variety of applications. Microbial carbonate precipitation, a by-product of microbial …

Microbial-induced calcite precipitation (MICP) is a promising new technology in the area of
Civil Engineering with potential to become a cost-effective, environmentally friendly and …

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

Over the previous two decades, a diverse array of geochemical negative emissions
technologies (NETs) have been proposed, which use alkaline minerals for removing and …

Microbial biofilms exhibit a self-produced matrix of extracellular polymeric substances (EPS),
including polysaccharides, proteins, extracellular DNA and lipids. EPS promote interactions …

The goal of this study is to explore a new self-healing concept in which fungi are used as a
self-healing agent to promote calcium mineral precipitation to fill the cracks in concrete. An …

Biomineralization through microbially or enzymatically induced calcium carbonate
precipitation (MICP/EICP) by urea hydrolysis has been widely investigated for various …

Ureolysis-driven calcite precipitation has potential to seal porosity and fracture networks in
rocks thus preventing groundwater flow and contaminant transport. In this study urea …