A facile approach to the fabrication of rattle-type magnetic carbon nanospheres for removal of methylene blue in water

“…Up to date, typical yolk–shell nanostructures, defined as inner core@outer shell, integrating diverse functional components, such as Fe 3 O 4 @Carbon, [ 18 ] Fe 3 O 4 @SiO 2 , [ 19 ] Fe 3 O 4 @PMMA, [ 20 ] Au@PANI, [ 21 ] Au@Carbon, [ 22 ] Au@PNIPM, [ 23 ] Au@TiO 2 , [ 24 ] SiOx/Carbon, [ 25 ] Bi@Carbon, [ 26 ] and so on, have been developed. Among them, inner magnetic core, such as Fe 3 O 4 nanoparticles with strong magnetic responsivity and outer carbon shell with outstanding chemical stability, further functionalization and tunable pore structure were integrated to be one kind of most promising yolk–shell materials for facile drug targeting delivery, [ 27 ] rapid recovery of heterogenous catalysts in liquid phase, [ 28 ] rapid removal of metal ion and organic pollutants, [ 29,30 ] and rapid screening of biomolecules. [ 31 ]…”

Yolk–Shell Fe₃O₄@Void@N‐Carbon Nanostructures Based on One‐Step Deposition of SiO₂ and Resorcinol‐3‐Aminophenol‐Formaldehyde (R‐APF) Cocondensed Resin Dual Layers onto Fe₃O₄ Nanoclusters

“…Up to date, typical yolk–shell nanostructures, defined as inner core@outer shell, integrating diverse functional components, such as Fe 3 O 4 @Carbon, [ 18 ] Fe 3 O 4 @SiO 2 , [ 19 ] Fe 3 O 4 @PMMA, [ 20 ] Au@PANI, [ 21 ] Au@Carbon, [ 22 ] Au@PNIPM, [ 23 ] Au@TiO 2 , [ 24 ] SiOx/Carbon, [ 25 ] Bi@Carbon, [ 26 ] and so on, have been developed. Among them, inner magnetic core, such as Fe 3 O 4 nanoparticles with strong magnetic responsivity and outer carbon shell with outstanding chemical stability, further functionalization and tunable pore structure were integrated to be one kind of most promising yolk–shell materials for facile drug targeting delivery, [ 27 ] rapid recovery of heterogenous catalysts in liquid phase, [ 28 ] rapid removal of metal ion and organic pollutants, [ 29,30 ] and rapid screening of biomolecules. [ 31 ]…”

Yolk–Shell Fe₃O₄@Void@N‐Carbon Nanostructures Based on One‐Step Deposition of SiO₂ and Resorcinol‐3‐Aminophenol‐Formaldehyde (R‐APF) Cocondensed Resin Dual Layers onto Fe₃O₄ Nanoclusters

“…In order to evaluate the reuse of PM-Fe/Ni, the regeneration experiments were conducted for CV and MB removal using PM-Fe/Ni with H 2 O 2 . 52,53 Aerwards, the material aer removal experiment was washed with distilled water and vacuum-dried at 65 C. Fe/Ni particles were supported onto PM-Fe/Ni once again. The regenerated material was reused in the removal experiment for six times.…”

Preparation of new adsorbent-supported Fe/Ni particles for the removal of crystal violet and methylene blue by a heterogeneous Fenton-like reaction

“…In recent years, hollow carbon particles have attracted increasing attention due to their promising features such as favorable conductivity, good stability, large surface area and high affinity to organic chemicals, which make them useful in a wide range of applications including catalyst supports, adsorbents and electrode materials. [1][2][3] The most frequently used strategies for synthesizing the hollow carbon particles are the hard template and so template methods. 4,5 Normally, three steps are involved in the synthesis: (1) template preparation, (2) shell coating, and (3) template removal.…”

“…4 However, multi-step synthesis and post-treatment are usually indispensable to produce such composites, which hampers their applications. 1,2,19 Recent years, beneting by the convenience and exibility, polyacrylic acid (PAA) based colloids have been frequently used as so templates for preparing hollow silica materials. [21][22][23][24] However, the PAA colloids can hardly form in solutions with a relative larger water/ethanol ratio due to the higher solubility of PAA in water, which is favorable for the RF coating.…”

A facile soft template method to synthesize hollow carbon and MnO_x composite particles for effective methylene blue degradation