Carbon dots enhanced ultra‐low‐density fluorescence proppants with both high‐compressive strength and anti‐deformation ability

Abstract: The polymer ultra‐low‐density proppants are critical to the development of slick‐water fracture technology, but which were prone to obvious deformation under high pressure in the fractures. To increase the stiffness of the styrene‐divinylbenzene copolymer (SDB) and obtain desired ultra‐low‐density (ULD) proppants, carbon dots (CDs) were introduced in‐situ considering their characteristics as the zero‐dimensional carbon nanomaterial. Taking the compressive strength and axial deflection, and so forth into consid… Show more

“…This is due to their ultra-lightweight property, with an apparent density of lower than 1.5 g cm −3 . 9 Due to their low-density characteristic, polymer microspheres have been gaining increasing attention as ultra-low-density proppants (ULDPs) in recent years. Taking polymethyl methacrylate (PMMA) and polystyrene (PS) as examples, PMMA microspheres were proven qualified as ULDPs after enhanced modification, which showed a crush ratio of 3.75% under 69 MPa and the apparent density ranging from 1.05 to 1.235 g cm −3 .…”

Constructing low-cost and high-strength ultra-low-density proppants based on the modification of activated carbon framework with in situ hydrolyzed silane

“…This is due to their ultra-lightweight property, with an apparent density of lower than 1.5 g cm −3 . 9 Due to their low-density characteristic, polymer microspheres have been gaining increasing attention as ultra-low-density proppants (ULDPs) in recent years. Taking polymethyl methacrylate (PMMA) and polystyrene (PS) as examples, PMMA microspheres were proven qualified as ULDPs after enhanced modification, which showed a crush ratio of 3.75% under 69 MPa and the apparent density ranging from 1.05 to 1.235 g cm −3 .…”

Constructing low-cost and high-strength ultra-low-density proppants based on the modification of activated carbon framework with in situ hydrolyzed silane