Transport of Polymer-Coated Metal-Organic Framework Nanoparticles in Porous Media

Abstract: Injecting fluids into deep underground geologic structures is a critical component to development of long-term strategies for managing greenhouse gas emissions and facilitating energy extraction operations. Recently, we reported that metal-organic frameworks are low-frequency absorptive acoustic metamaterial that may be injected into the subsurface enhancing geophysical monitoring tools used to track fluids and map complex structures. A key requirement for this nanotechnology deployment is transportability thr… Show more

“…Synthesis of MIL-101­(Cr) nanoparticles was accomplished using previously reported methods. ,,− ZIF-8 was chosen as it is facile to prepare and has robust porosity and excellent stability across a range of chemical, temperature, and pressure conditions, , making it an ideal candidate for subsurface applications. The synthesis of nanometric ZIF-8 (sodalite topology) was performed as reported at room temperature and in an aqueous environment to promote spontaneous and rapid nucleation.…”

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

“…Synthesis of MIL-101­(Cr) nanoparticles was accomplished using previously reported methods. ,,− ZIF-8 was chosen as it is facile to prepare and has robust porosity and excellent stability across a range of chemical, temperature, and pressure conditions, , making it an ideal candidate for subsurface applications. The synthesis of nanometric ZIF-8 (sodalite topology) was performed as reported at room temperature and in an aqueous environment to promote spontaneous and rapid nucleation.…”

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