2022
DOI: 10.1016/j.inoche.2022.109379
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Preparation of zinc oxide graphted nickel incorporated mesoporous SBA-16 doped graphene oxide: An efficient catalyst for transesterification of waste edible oil to biodiesel and photocatalytic degradation of organic dyes

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Cited by 11 publications
(5 citation statements)
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“…72 The primary synthetic methods have been employed in the production of biodiesel, encompassing non-catalytic conversion, nano-fibers (such as ZnO/Ni-SBA-16@GO, SiO 2 -Cu@Fe 2 O 3 nanofibers), acidcatalyzed transesterification (use of H 2 SO 4 , HCl, HSO 3 and many others) and alkali-catalyzed trans-esterification. [73][74][75][76][77] In the trans-esterification process, acid catalysts produce extremely high yields. 78 Moreover, nano-fiber catalysts are proven to produce 98% of biodiesel at 70 °C and 7 h reaction time.…”
Section: Biofuel Production Through Trans-esterificationmentioning
confidence: 99%
See 1 more Smart Citation
“…72 The primary synthetic methods have been employed in the production of biodiesel, encompassing non-catalytic conversion, nano-fibers (such as ZnO/Ni-SBA-16@GO, SiO 2 -Cu@Fe 2 O 3 nanofibers), acidcatalyzed transesterification (use of H 2 SO 4 , HCl, HSO 3 and many others) and alkali-catalyzed trans-esterification. [73][74][75][76][77] In the trans-esterification process, acid catalysts produce extremely high yields. 78 Moreover, nano-fiber catalysts are proven to produce 98% of biodiesel at 70 °C and 7 h reaction time.…”
Section: Biofuel Production Through Trans-esterificationmentioning
confidence: 99%
“…78 Moreover, nano-fiber catalysts are proven to produce 98% of biodiesel at 70 °C and 7 h reaction time. 76,77 Fatty acid and alkyl esters can be produced by trans-esterifying triglycerides to alcohols, primarily methanol and ethanol. 79 The process of turning sunflower oil into biodiesel using transesterification has been studied.…”
Section: Biofuel Production Through Trans-esterificationmentioning
confidence: 99%
“…Yao et al reported the esterification catalyzed by commercial graphene oxide, and the catalytic effect was not obvious (the ester yield: 33%), which may be due to the weak electron-hole oxidation ability ( Yao et al, 2022 ). Hussain et al prepared ZnO/Ni-SBA-16@GO composite photocatalyst for conversion of waste edible oil into biodiesel with good activity under 500 W Xe lamp irradiation, and the conversion rate was as high as 98% ( Athar Hussain et al, 2022 ). Similar to graphene-semiconductor materials, as doped with graphene on the semiconductor, VB above would produce donor level (introduction of C 2p orbital), leading to the semiconductor VB upshift and narrow band gap.…”
Section: Mechanism Of Photocatalytic (Trans)esterificationmentioning
confidence: 99%
“…Jume et al utilized GO@ZrO 2 ‐SrO to produce biodiesel from waste cooking oil, obtaining a maximum yield of 91% 11 . In 2022, Hussain et al prepared ZnO/Ni‐SBA‐16@GO catalyst, producing biodiesel with a yield of 98% from waste cooking oil 16 . Recently in 2023, Munri used CoWO 3 @GO catalyst to produce biodiesel from Carthamus Lantus L., a non‐edible oil 17 .…”
Section: Introductionmentioning
confidence: 99%
“…11 In 2022, Hussain et al prepared ZnO/Ni-SBA-16@GO catalyst, producing biodiesel with a yield of 98% from waste cooking oil. 16 Recently in 2023, Munri used CoWO 3 @GO catalyst to produce biodiesel from Carthamus Lantus L., a non-edible oil. 17 Potassium has also been identified as an effective active site for biodiesel production.…”
mentioning
confidence: 99%