2021
DOI: 10.3390/ma14164756
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Physicochemical and Optical Characterization of Citrus aurantium Derived Biochar for Solar Absorber Applications

Abstract: Agro-industrial waste valorization is an attractive approach that offers new alternatives to deal with shrinkage and residue problems. One of these approaches is the synthesis of advanced carbon materials. Current research has shown that citrus waste, mainly orange peel, can be a precursor for the synthesis of high-quality carbon materials for chemical adsorption and energy storage applications. A recent approach to the utilization of advanced carbon materials based on lignocellulosic biomass is their use in s… Show more

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Cited by 19 publications
(9 citation statements)
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“…XRD spectra of raw orange peel and biochar samples B300, B500, and B700 are shown in Figure 4a–d. Figure 4a shows that the XRD spectra of raw orange peel exhibit an amorphous structure with a broad peak (Gonzalez‐Canche et al, 2021). The XRD spectra of biochars (Figure 4b–d) show a prominent amorphous peak at 24.31° corresponding to the [002] plane.…”
Section: Resultsmentioning
confidence: 99%
“…XRD spectra of raw orange peel and biochar samples B300, B500, and B700 are shown in Figure 4a–d. Figure 4a shows that the XRD spectra of raw orange peel exhibit an amorphous structure with a broad peak (Gonzalez‐Canche et al, 2021). The XRD spectra of biochars (Figure 4b–d) show a prominent amorphous peak at 24.31° corresponding to the [002] plane.…”
Section: Resultsmentioning
confidence: 99%
“…XRD patterns of OPB and OPB/Fe3O4 are shown in Figure 2. An Extended signal between intervals of 2θ between 18°-25° was observed in the diffractograms of OPB, indicating the presence of amorphous carbon [31][32], the presence of a peak at 2θ = 43.25° confirm also the presence of certain degree of graphitic carbon [33][34]. In addition, the XRD patterns displayed other peaks at 2θ = 25°, 32°, 39°, and 48° which can be attributed to the presence of hydroxyapatite in the biochar (ICDD-PDF No 00-001-1008) [24].…”
Section: Results and Discussion 1) Characterization Of Opb And Opb/fe3o4mentioning
confidence: 99%
“…Compared with the conventional Pt/C based zinc air battery, biochar-based battery exhibited higher specific capacity (767 mAh/g Zn vs 684 mAh/g Zn) and peak power density (141 mW/cm 2 vs 126 mW/cm 2 ) (Qiao et al 2021). Furthermore, biochar has also been used as a pigment in solar absorber coatings owing to its possibility to reduce the reflectance of the material (Gonzalez-Canche et al 2021). It can also be utilized as a proxy to traditional Pt catalyst in dye solar cells (Tiihonen et al 2021).…”
Section: Novel Batteries and Supercapacitorsmentioning
confidence: 99%