2018
DOI: 10.1002/slct.201800800
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Natural Porous Biomass Carbons Derived from Loofah Sponge for Construction of SnO2@C Composite: A Smart Strategy to Fabricate Sustainable Anodes for Li–Ion Batteries

Abstract: The cheap, environment-friendly and renewable biomass is a promising raw material to prepare the carbon-based composites for the lithium-ion batteries. Herein, the loofah spongederived hollow carbon fibers (LDHCF) were obtained by the activation and carbonization process of biomass loofah sponges. The LDHCF with the porous structure shows the high surface area and active sites. When LDHCF were coated with SnO 2 nanoparticles via the hydrothermal method, the SnO 2 / LDHCF composite as anode material exhibits a … Show more

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Cited by 18 publications
(8 citation statements)
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“…Previously, luffa sponge has been successfully used in many applications such as bio‐fibers manufacturing, [ 73 ] bio‐sorbent to the removal of divalent metals, oil absorption, CO 2 chemical fixation, [ 74 ] efficient phenol degradation, [ 72 ] composite materials [ 75 ] and also in Li‐ion batteries. [ 76,77 ] To the best of our knowledge, no application of candle soot coated luffa sponge as the material for solar photothermal conversion has been demonstrated till now.…”
Section: Introductionmentioning
confidence: 99%
“…Previously, luffa sponge has been successfully used in many applications such as bio‐fibers manufacturing, [ 73 ] bio‐sorbent to the removal of divalent metals, oil absorption, CO 2 chemical fixation, [ 74 ] efficient phenol degradation, [ 72 ] composite materials [ 75 ] and also in Li‐ion batteries. [ 76,77 ] To the best of our knowledge, no application of candle soot coated luffa sponge as the material for solar photothermal conversion has been demonstrated till now.…”
Section: Introductionmentioning
confidence: 99%
“…Figure S4a, Supporting Information, shows the Raman spectrum of TiN NFs@rGO, the intensity ratio of graphitic peak and graphitic defects peak was about 1.07, indicating a good crystallinity of graphene. [ 26 ] The sulfur content in S/TiN NFs@rGO achieved 79%, which was confirmed by TGA (Figure S4b, Supporting Information). The specific surface area decreased from 143 to 6.2 m 2 g −1 and the pore size reduced from 2.8 to 1.9 nm after sulfur loading, indicating the full loading of sulfur in TiN NFs@rGO (Figure S4c,d, Supporting Information).…”
Section: Resultsmentioning
confidence: 64%
“…The comparison is shown in Table . The reversible capacity of the current sample is also higher than other transition metal oxide based anodic materials reported in the previous works, such as the molybdenum‐doped titanium dioxide, the MoO 2 /C hybrid microspheres, the porous Co 3 O 4 /CuO composite, the SnO 2 @TiO 2 composite and the SnO 2 @C composite . It is obvious that the present nanotubular MoO 3 ‐48.9%−SnO 2 composite shows excellent lithium storage performance.…”
Section: Resultsmentioning
confidence: 64%