Universal Large-Scale and Solvent-Free Surface Modification of Inorganic Particles via Facile Mechanical Grinding

Abstract: Surface properties play an important role in nano/microparticles with large surface area-to-volume ratios. Even though surface modification of particles has been required in many industries in recent years, most surface modification processes are still complicated and consume large amounts of solvents, chemicals, and energy. It has a greater negative impact on the environment as the field of surface modification is rapidly growing. Herein, we present a novel solvent-free large-scale surface modification method… Show more

“…The reaction takes place under solvent-free conditions but requires a high molar ratio between the reagents to proceed efficiently. 35 Here we show a green and sustainable functionalization of oxidized carbon black by ball milling under solvent-free conditions with tetraphenyl phosphonium bromide (TPPBr) (Scheme 1). The reaction proceeds efficiently in a very short time and with a minimum reagent ratio, affording the adduct with good reproducibility and mass production.…”

“…The reaction takes place under solvent-free conditions but requires a high molar ratio between the reagents to proceed efficiently. 35…”

Sustainable functionalization of carbon black via dry ball milling

“…The reaction takes place under solvent-free conditions but requires a high molar ratio between the reagents to proceed efficiently. 35 Here we show a green and sustainable functionalization of oxidized carbon black by ball milling under solvent-free conditions with tetraphenyl phosphonium bromide (TPPBr) (Scheme 1). The reaction proceeds efficiently in a very short time and with a minimum reagent ratio, affording the adduct with good reproducibility and mass production.…”

“…The reaction takes place under solvent-free conditions but requires a high molar ratio between the reagents to proceed efficiently. 35…”

Sustainable functionalization of carbon black via dry ball milling

Engineering particles for sensing applications via in-situ synthesizing carbon dots@SiO2 photonic crystals

A natural armor-protected absorbent from discarded durian peel with rapid and recyclable absorption, high oil retention and self-cleaning ability