Porous Colloidal Nanoparticles as Injectable Multimodal Contrast Agents for Enhanced Geophysical Sensing

Abstract: Injecting fluids into underground geologic structures is crucial for the development of long-term strategies for managing captured carbon and facilitating sustainable energy extraction operations. We have previously reported that the injection of metal–organic frameworks (MOFs) into the subsurface can enhance seismic monitoring tools to track fluids and map complex structures, reduce risk, and verify containment in carbon storage reservoirs because of their absorption capacity of low-frequency seismic waves. H… Show more

“…210 Injectable MOF suspensions have been shown to alter the distinct elastic and anelastic properties of rocks, resulting in decreased seismic wave velocities and amplitudes. 65,211 The ability to disperse the contrast agent nanoparticles 212,213 throughout a fluid-rock system allows for the possibility of imposing a 2D or 3D km-scale subsurface meta-structure (Fig. 3C).…”

Review of foundational concepts and emerging directions in metamaterial research: design, phenomena, and applications

“…210 Injectable MOF suspensions have been shown to alter the distinct elastic and anelastic properties of rocks, resulting in decreased seismic wave velocities and amplitudes. 65,211 The ability to disperse the contrast agent nanoparticles 212,213 throughout a fluid-rock system allows for the possibility of imposing a 2D or 3D km-scale subsurface meta-structure (Fig. 3C).…”

Review of foundational concepts and emerging directions in metamaterial research: design, phenomena, and applications

Recent advances in small-angle scattering techniques for MOF colloidal materials