The dissolution rates of olivine have been considered by a plethora of studies in part due to
its potential to aid in carbon storage and the ease in obtaining pure samples for laboratory …

Reactions occurring at mineral–fluid interfaces are important in all geochemical processes
and essential for the cycling of elements within the Earth. Understanding the mechanism of …

Silicate glasses are durable solids, and yet they are chemically unstable in contact with
aqueous fluids—this has important implications for numerous industrial applications related …

Chemical weathering reactions of rocks at Earth's surface play a major role in the chemical
cycle of elements, and represent one of the major abiotic sinks for atmospheric CO2 …

Currently accepted mechanistic models describing aqueous corrosion of borosilicate
glasses are based on diffusion-controlled hydrolysis, hydration, ion exchange reactions, and …

Borosilicate glass is an important material used in various industries due to its chemical
durability, such as for the immobilization of high-level nuclear waste. However, it is …

Peridotite serpentinization has first-order effects on geochemical and petrophysical
processes in the lithosphere. This process induces intensive fracturing, generating fluid …

The dissolution of most common multicomponent silicate minerals and glasses is typically
incongruent, as shown by the nonstoichiometric release of the solid phase components. This …

The reactions that occur at the mineral–water interface are central to all geochemical
processes. They affect a wide range of important Earth processes, all of which involve …

During geological CO 2 storage and utilization, CO 2 plume migration forms widespread
static retention regions including the dead-end fractures and pores in the host rock, where …