220 B RP
Boston, MA 02115
United States
Northeastern University (USA)
Red mud (RM), Gallium, Acid leaching, Recovery, Leaching mechanism
Lithium-ion batteries, lithium iron phosphate, leaching kinetics, oxidation roasting, resource recycling
perovskite fluorides, O-doped, potassium-ion capacitors, charge storage mechanism
CO2 mineralization, Fly ash-based geopolymer, Leaching test
scheelite, selective adsorption, Surface characterization, Flotation, DBOA, P/A-2
Monazite, fluorite, micro-flotation, carboxymethyl cellulose, octyl hydroxamic acid
Gemini anion surfactant, Fluorite, Dolomite, Dolomite-Fe, separation
Hydrogen-based mineral phase transformation, Fluorite, Separation, surface modifications; Sustainable mineral processing;Flotation
Scheelite, Fluorite, Cu-DBOA, flotation, Sodium Silicate, Surface Adsorption Mechanism
Columbite, Hydrogen mineral phase transformation, floatability, Phase transformation, Surface property
Spodumene, Beryl, Flotation separation, collector, α-bromo-myristic acid
Organic/Inorganic composite, Long lifespan, Aqueous zinc-ion batteries PPy, Energy storage mechanism
Gemini surfactant, Synergistic interaction, Low-temperature, Fluorite, Flotation
Hybrid electrolyte, Al3+ ion additives, Cyclic stability, Tungsten oxide, energy storage mechanism
Synthesized collector, Gemini surfactant, Carbonate minerals, separation
Spodumene, Supercritical CO₂ leaching, lithium, Clean extraction, Cyclic strengthening
Spodumene, Supercritical CO₂ leaching, Lithium, Clean extraction, Cyclic strengthening
spodumene, Supercritical CO2 leaching, Lithium extraction, Leaching kinetics, Additive enhancement
Bastnaesite, flotation separation, Chemisorption, Carboxylated chitosan, Selective depressant