2019
DOI: 10.1007/s10853-019-03612-7
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CoOx/MoOy-anchored multi-wrinkled biomass carbon as a promising material for rapidly selective methyl blue removal

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Cited by 12 publications
(5 citation statements)
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“…Pyrolysis is the most commonly used method for the preparation of carbons from biomass under a certain temperature and atmosphere. [56,[102][103][104][105][106][107][108][109] Fu et al [110] used different macroalgae as raw materials to obtain carbons after pyrolysis. The results showed that the pyrolysis temperature can change the carbon structure, thereby affecting the adsorption mechanism for organic pollutants.…”
Section: Pyrolysismentioning
confidence: 99%
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“…Pyrolysis is the most commonly used method for the preparation of carbons from biomass under a certain temperature and atmosphere. [56,[102][103][104][105][106][107][108][109] Fu et al [110] used different macroalgae as raw materials to obtain carbons after pyrolysis. The results showed that the pyrolysis temperature can change the carbon structure, thereby affecting the adsorption mechanism for organic pollutants.…”
Section: Pyrolysismentioning
confidence: 99%
“…Other redox transition elements are also applied in the preparation of bimetallic metal-carbon composites. For example, Yang et al [56] took algae enteromorpha (EP) as the carbon source, and prepared a novel multi-wrinkled biomass carbon (CoO x /MoO y @MWBC) by doping bimetallic oxides (cobalt oxide and molybdenum oxide) with a Co loading of 3.26 wt.% and Mo loading of 1.03 wt.%, which delivered a high adsorption performance for methyl blue (MB) (1587.3 mg g −1 ) with an excellent stability and reproducibility (Table 2). The adsorbents could be easily separated from water through external magnetic field without any organic reagents, followed by a simple regeneration via ethanol washing.…”
Section: Metal/carbon Compositesmentioning
confidence: 99%
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“…The use of macroalgae biomass for biochar (charcoal) production, with energy co-generation potential, provides a value-driven model to sequester carbon and recycle nutrients (Bird et al, 2011). In specific cases, macroalgal biomass can be used as biochar and magnetic biochar precursor, as shown in several cases using brown or green macroalgae (Jung et al, 2016;Son et al, 2018a,b;Foroutan et al, 2019;Jung et al, 2019;Yang et al, 2019). The prepared magnetic biochars were employed as efficient adsorbents of acetylsalicylic acid, water-soluble organic dyes and copper ions (Jung et al, 2019).…”
Section: Biosorbentsmentioning
confidence: 99%