Green Synthesis of Crystalline Silica from Sugarcane Bagasse Ash: Physico-Chemical Properties

Seroka, Ntalane S.; Taziwa, Raymond; Khotseng, Lindiwe

doi:10.3390/nano12132184

Cited by 11 publications

(4 citation statements)

References 36 publications

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“…Thermal properties were investigated using thermogravimetric analysis (TGA) from room temperature to 800°C, reported in [22]. The current study gave insightful information on the thermal characteristics of bagasse ash as shown in Figure 5.…”

Section: Thermal Analysismentioning

confidence: 96%

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Sugar Cane Bagasse Ash: An Agricultural Residue with Potential Rubber Filler Applications

Seroka¹,

Taziwa²,

Khotseng³

2023

Application and Characterization of Rubber Materials

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South Africa produces approximately 7 million tons of sugarcane bagasse annually as an agricultural residue, which is treated as waste and its disposal is known to have negative impacts on the environment. To lessen reliance on petroleum and polymers, consideration is given on use of sugarcane bagasse ash as substitute materials for the development of fillers for rubber and other large-scale commodity polymers. This work reports on the mechanical, physiochemical, and structural properties of sugarcane bagasse ash to define the compatibility with the specific polymers that will pave way to the engineering of composites to utilize the potential benefits of these residue-derived fillers. The structural and morphological properties of the untreated and treated sugarcane bagasse ash were performed using XRD, FTIR, and SEM-EDX, respectively. The obtained results confirmed the successful treatment of the sugarcane bagasse ash. The study was successful in showing that sugarcane bagasse ash as potential filler in rubber polymer matrix is a natural resource of silica, which is sustainable and cost-effective, thus should be harnessed for industrial purposes in South Africa.

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Section: Thermal Analysismentioning

confidence: 96%

“…Figure 5.TGA curves of (a) untreated sugarcane bagasse ash and treated bagasse ash with citric acid. Reproduced with permission from[22], copyright (2022), MDPI.…”

mentioning

confidence: 99%

Sugar Cane Bagasse Ash: An Agricultural Residue with Potential Rubber Filler Applications

Seroka¹,

Taziwa²,

Khotseng³

2023

Application and Characterization of Rubber Materials

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“…A notable attempt at a green synthesis of crystalline structured silica has been made through a novel synthesis method making use of organic solvents. Seroka et al 41 reported the use of organic chemicals, namely CA and l -cysteine hydrochloride monohydrate ( l -Cys), in the leaching of SCBA, which resulted in crystalline silica with average sizes of 26 nm for CA and 29 nm for l -Cys. Furthermore, tetrapropylammonium hydroxide (TPAH) was utilized as an extraction solvent for further purification by eliminating excess residuals and impurities in the synthesized silica.…”

Section: Green Synthesis Of Silicamentioning

confidence: 99%

Green synthesis of silica and silicon from agricultural residue sugarcane bagasse ash – a mini review

et al. 2023

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“…Therefore, it is an essential to look for a feasible and affordable method to produce silica gel. In this line, as a substitute in this case, preparation of silica gel using leftover biomass, such as rice husk ash [13], sugarcane leaf [14], palm tree [15], rice straw [16], oat husk [17], sugarcane bagasse [14], coffee husk [18], corn cob [19,20], wheat straw [21], maize leaves [22], bamboo leaf [23], and teff straw [24] are gaining more interest because of this approach addresses simple manufacturing procedure and economically affordable , can be a better option.…”

Section: Introductionmentioning

confidence: 99%

Characteristic investigations on bio-silica gel prepared from teff (Eragrostis tef) straw: effect of calcination time

Tessema,

Gonfa,

Hailegiorgis

et al. 2023

Mater. Res. Express

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Bio-based silica gel is having many commercial significances in various sectors, such as medical, cleansing agents in industries, laboratory analysis, cosmetics, food additives, and so forth. In view of crucial requirements, this study aimed to synthesize and characterize the silica gel from Ethiopia’s primary post-harvest biomass residue, known as teff straw. The present study has been emphasized to investigate on the influence of calcination time for teff straw ash [Joshi et al 2022 Investigation of bamboo leaves as an alternative source of silica: extraction, characterization and its application as an adsorbent for methylene blue sequestration Chem. Select. 7, e202200011] preparation between 2 to 5 h. Further, the specific surface area of the resultant TSA samples was examined for preliminary understandings of processing time. By adopting the standard procedures through template-mediated sol–gel process, acquired TSA samples were subjected to treatment with NaOH to result sodium silicate solution and the amorphous silica. From the findings, it was apparent that the yield of silica gel has significantly influenced by calcination time. Accordingly, the maximum yield (90.0%) was attained at the calcination time of 4 h at 900 °C. Further, physiochemical and morphological characteristics of acquired silica gels were ascertained using sophisticated instrumental techniques such as BET, FTIR, XRD, SEM, and EDX. The XRD analysis of the crystallographic characteristics showed that the silica extracted from TSA at 900 °C for 2, 3, 4, and 5 h was found to be in amorphous state. The surface morphological studies of silica gel samples have been carried out using SEM studied. the EDX spectra showed the negligible amount of other impurities, nevertheless a larger amount of silica was found with highest purity of 99.77% e silica gel was obtained in TSA calcinated at 3 h. FTIR spectrum confirmed the presence of siloxane (Si–O–Si) vibrations of amorphous silica that are responsible for the strong bend observed at 1070 cm−1. It was found that the silica gel prepared at 3 h of calcination time had the largest specific surface area of 739.242 m2 g−1, pore volume of 0.32 cm3 g−1, and a pore diameter of 1.68 nm.

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Green Synthesis of Crystalline Silica from Sugarcane Bagasse Ash: Physico-Chemical Properties

Cited by 11 publications

References 36 publications

Sugar Cane Bagasse Ash: An Agricultural Residue with Potential Rubber Filler Applications

Sugar Cane Bagasse Ash: An Agricultural Residue with Potential Rubber Filler Applications

Green synthesis of silica and silicon from agricultural residue sugarcane bagasse ash – a mini review

Characteristic investigations on bio-silica gel prepared from teff (Eragrostis tef) straw: effect of calcination time

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