Tropical fruit waste‐derived mesoporous rock‐like Fe2O3/C composite fabricated with amphiphilic surfactant‐templating approach showing massive potential for high‐tech applications

Summary Recently, the glycolipids biosurfactant materials have widely been utilized for many industrial applications due to their feasible surface activity, biodegradable as well as eco‐friendly nature. Even though many of the earlier studies have been reported on such kind of surfactants, in this s...

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Published in	International journal of energy research Vol. 45; no. 12; pp. 17417 - 17430
Main Authors	Murphin Kumar, Paskalis Sahaya, Ganesan, Sivarasan, Al‐Muhtaseb, Ala'a H., Al‐Haj, Lamya, Elancheziyan, Mari, Shobana, Sutha, Kumar, Gopalakrishnan
Format	Journal Article
Language	English
Published	Chichester, UK John Wiley & Sons, Inc 10.10.2021 Hindawi Limited
Subjects	adsorption Aqueous solutions Biodegradability Biodegradation biosurfactant Biosurfactants Capacitance Composite materials Current density electrochemical performances Electrode materials Electrodes Ferric oxide Fruits Glycolipids Hematite Industrial applications mesoporous carbon Pollutants Rocks Surface activity Surfactants Tropical climate tropical fruit biomass
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Abstract	Summary Recently, the glycolipids biosurfactant materials have widely been utilized for many industrial applications due to their feasible surface activity, biodegradable as well as eco‐friendly nature. Even though many of the earlier studies have been reported on such kind of surfactants, in this study we focused on porous rocks‐like Fe2O3/C composites, which were magnificently synthesized from a novel tropical fruit biomass, using a glycolipid biosurfactant with high specific surface area of about 466.9 m2/g via a biofunctional single‐step thermochemical method. They could be applied as an adsorbent to adsorb the pharmaceutical pollutants mainly, DCF from aqueous solution. Moreover, the highest adsorption capacity for DCF could be achieved, which is of about 77.51 mg/g. Furthermore, as‐prepared glycolipid functionalized Fe2O3/C composites were used as electrode materials for high‐performance supercapacitors. Galvanostatic charge‐discharge results showed that the Fe2O3/C modified electrode possesses a specific capacitance of about 374 F/g with a current density of 0.2 A/g and it has retained 84% of capacitance, even after 3000 cycles. The remarkable performances are mainly due to the surface amendments of the Fe2O3/C composite, using biologically produced glycolipid surfactant, would have more favorable foreground towards the upcoming energy crises. Nanoporous rocks‐like Fe2O3/C composites synthesized from biomass, using a glycolipid biosurfactant. A biofunctional single‐step thermochemical method used to synthesis high surface area nanoporous biocarbon with a specific surface area of 466.9 m2/g. Highly porous biocarbon achieved, which is of about 77.51 mg/g adsorption for DCF. Furthermore, Fe2O3/C composites possesses a specific capacitance of about 374 F/g at 0.2 A/g and it has retained 84% of capacitance, even after 3000 cycles. The remarkable performances are mainly due to the highly nanoporous nature surface amendments of the Fe2O3/C composite.
AbstractList	Recently, the glycolipids biosurfactant materials have widely been utilized for many industrial applications due to their feasible surface activity, biodegradable as well as eco‐friendly nature. Even though many of the earlier studies have been reported on such kind of surfactants, in this study we focused on porous rocks‐like Fe2O3/C composites, which were magnificently synthesized from a novel tropical fruit biomass, using a glycolipid biosurfactant with high specific surface area of about 466.9 m2/g via a biofunctional single‐step thermochemical method. They could be applied as an adsorbent to adsorb the pharmaceutical pollutants mainly, DCF from aqueous solution. Moreover, the highest adsorption capacity for DCF could be achieved, which is of about 77.51 mg/g. Furthermore, as‐prepared glycolipid functionalized Fe2O3/C composites were used as electrode materials for high‐performance supercapacitors. Galvanostatic charge‐discharge results showed that the Fe2O3/C modified electrode possesses a specific capacitance of about 374 F/g with a current density of 0.2 A/g and it has retained 84% of capacitance, even after 3000 cycles. The remarkable performances are mainly due to the surface amendments of the Fe2O3/C composite, using biologically produced glycolipid surfactant, would have more favorable foreground towards the upcoming energy crises. Summary Recently, the glycolipids biosurfactant materials have widely been utilized for many industrial applications due to their feasible surface activity, biodegradable as well as eco‐friendly nature. Even though many of the earlier studies have been reported on such kind of surfactants, in this study we focused on porous rocks‐like Fe2O3/C composites, which were magnificently synthesized from a novel tropical fruit biomass, using a glycolipid biosurfactant with high specific surface area of about 466.9 m2/g via a biofunctional single‐step thermochemical method. They could be applied as an adsorbent to adsorb the pharmaceutical pollutants mainly, DCF from aqueous solution. Moreover, the highest adsorption capacity for DCF could be achieved, which is of about 77.51 mg/g. Furthermore, as‐prepared glycolipid functionalized Fe2O3/C composites were used as electrode materials for high‐performance supercapacitors. Galvanostatic charge‐discharge results showed that the Fe2O3/C modified electrode possesses a specific capacitance of about 374 F/g with a current density of 0.2 A/g and it has retained 84% of capacitance, even after 3000 cycles. The remarkable performances are mainly due to the surface amendments of the Fe2O3/C composite, using biologically produced glycolipid surfactant, would have more favorable foreground towards the upcoming energy crises. Nanoporous rocks‐like Fe2O3/C composites synthesized from biomass, using a glycolipid biosurfactant. A biofunctional single‐step thermochemical method used to synthesis high surface area nanoporous biocarbon with a specific surface area of 466.9 m2/g. Highly porous biocarbon achieved, which is of about 77.51 mg/g adsorption for DCF. Furthermore, Fe2O3/C composites possesses a specific capacitance of about 374 F/g at 0.2 A/g and it has retained 84% of capacitance, even after 3000 cycles. The remarkable performances are mainly due to the highly nanoporous nature surface amendments of the Fe2O3/C composite.
Author	Ganesan, Sivarasan Shobana, Sutha Al‐Muhtaseb, Ala'a H. Elancheziyan, Mari Al‐Haj, Lamya Kumar, Gopalakrishnan Murphin Kumar, Paskalis Sahaya
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Snippet	Summary Recently, the glycolipids biosurfactant materials have widely been utilized for many industrial applications due to their feasible surface activity,... Recently, the glycolipids biosurfactant materials have widely been utilized for many industrial applications due to their feasible surface activity,...
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SubjectTerms	adsorption Aqueous solutions Biodegradability Biodegradation biosurfactant Biosurfactants Capacitance Composite materials Current density electrochemical performances Electrode materials Electrodes Ferric oxide Fruits Glycolipids Hematite Industrial applications mesoporous carbon Pollutants Rocks Surface activity Surfactants Tropical climate tropical fruit biomass
Title	Tropical fruit waste‐derived mesoporous rock‐like Fe2O3/C composite fabricated with amphiphilic surfactant‐templating approach showing massive potential for high‐tech applications
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