Fe3O4-PDA-Lipase as Surface Functionalized Nano Biocatalyst for the Production of Biodiesel Using Waste Cooking Oil as Feedstock: Characterization and Process Optimization

Touqeer, Tooba; Mumtaz, M.; Mukhtar, Hamid; Ahmad, Irfan; Akram, Sadia; Shabbir, Aroosh; Rashid, Umer; Nehdi, Imededdine Arbi; Choong, Thomas Shean Yaw

doi:10.3390/en13010177

Cited by 81 publications

(47 citation statements)

References 47 publications

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“…They have high surface reaction activity, high adsorption ability, and large specific surface area, characteristics that allow using high enzyme loadings in biocatalyst preparations. Lipase immobilized on nanocarriers therefore frequently shows high enzyme activity, selectivity, thermal stability, and adaptability to wide pH ranges as well as easy recovery and purification 40,41 . The technique has been increasingly studied, as evidenced by the number of publications on biodiesel + lipase + nanoparticles and biodiesel + lipase + magnetic nanoparticles (Fig.…”

Section: Resultsmentioning

confidence: 99%

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Biodiesel production by lipase‐catalyzed reactions: bibliometric analysis and study of trends

Almeida

Travália

Gonçalves

et al. 2021

Biofuels Bioprod Bioref

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Biodiesel has become increasingly important in recent years as a potential substitute for petroleum diesel. Different techniques and catalysts have been developed and widely investigated for biodiesel production via enzymatic biocatalysis. In this review, we conducted a bibliometric analysis to examine the global scenario and identify trends in lipase‐catalyzed biodiesel production in the past three decades. Challenges, advantages, disadvantages, and novel methods are also discussed. Publication frequency increased over the studied period, with China, Brazil, and India emerging as the most productive countries in terms of total number of publications and number of publications per journal. Papers from the field of bioenergy and bioprocesses received the highest number of citations. Keyword analysis revealed that immobilized lipase (magnetic nanoparticles and cross‐linked enzyme aggregates), different feedstocks, ionic liquids, ultrasonication, and metabolic engineering were relevant to lipase‐catalyzed biodiesel production. It is concluded that the research emphasis on biodiesel production is moving toward the use of non‐edible oils, ultrasound, and ionic liquids for achieving high‐enzyme activity and substrate conversion. © 2021 Society of Chemical Industry and John Wiley & Sons, Ltd

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Section: Resultsmentioning

confidence: 99%

“…These materials are applied in bioseparation, medical science, the food industry, and environmental analysis 46 . The most relevant types of nanoparticles are those synthesized using iron, nickel, chromium, cobalt, manganese, or their oxides 41 …”

Section: Resultsmentioning

confidence: 99%

Biodiesel production by lipase‐catalyzed reactions: bibliometric analysis and study of trends

Almeida

Travália

Gonçalves

et al. 2021

Biofuels Bioprod Bioref

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“…In the 2θ range of 20-25 • , the rGO sample shows a broad diffraction peak, which corresponds to the (002) plane of rGO amorphous carbon [23]. As shown in the spectra of MrGO-1, MrGO-2, and MrGO-3 samples, the weak signals of rGO could also be tracked [24]. With increasing content of rGO, the corresponding peaks of the nanocomposites became increasingly obvious.…”

Section: Characterizationmentioning

confidence: 87%

Removal of Sulfadiazine Using 3D Interconnected Petal-Like Magnetic Reduced Graphene Oxide (MrGO) Nanocomposites

Zhong

Feng

et al. 2020

Water

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Adsorption has been regarded as one of the most efficient and economic methods for the removal of antibiotics from aqueous solutions. In this work, different graphene-based magnetic nanocomposites using a modified solvothermal method were synthesized and employed to remove sulfadiazine (SDZ) from water. The adsorption capacity of the optimal magnetic reduced graphene oxide (MrGO) was approximately 3.24 times that of pure Fe3O4. After five repeated adsorption cycles, the removal rate of SDZ (100 μg/L) by MrGO nanocomposites was still around 89.3%, which was only about a 3% decrease compared to that in the first cycle. Mechanism investigations showed that both chemical and physical adsorption contributed to the removal of SDZ. The excellent adsorption performance and recyclability of MrGO nanocomposites could be attributed to their wonderful 3D interconnected petal-like structures. The MrGO with SDZ could be easily recollected by magnetic separation. The MrGO also exhibited excellent adsorption performance in the purification of real polluted water.

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“…With increasing time, there has been an ultimate shift to fossil fuels, which accounts for the majority of energy production (Le Quynh et al, 2017;Youse et al, 2019). Incessant globalization and industrialization has led to spike in the utilization of fossil fuel products like petroleum and coal (Touqeer et al, 2020). As global energy consumption is mainly dependent on the endangered and depleting fossil fuel reservoirs, the need for renewable energy or fuel sources is growing due to the ever-increasing demand.…”

Section: Introductionmentioning

confidence: 99%

Fabrication and Optimization of Nanocatalyst for Biodiesel Production: An Overview

et al. 2020

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Necessity and exploitation of fossil fuel products are implacable in serving the needs of humanity despite being a finite and limited resource. To meet the thrust of energy, biofuels derived from varieties of renewable resources are imperative in fulfilling the demand of renewable fuels on a large scale without creating environmental concerns. Biofuels are inevitably the result of the carbon fixation process which stores chemical energy, ultimately reducing the total amount of carbon dioxide. Different kinds of biofuels like bioethanol, biomethanol, biogas, and biodiesel are derived depending on varieties of feedstock materials. Among these, production of biodiesel augments the progression of clean and renewable fuel. In this review, we have discussed the production of biodiesel derived from various feedstock and using several processes like pyrolysis, direct blending, micro-emulsion, and trans-esterification, with critical discussion focussing on increasing biodiesel production using nanocatalysts. Biodiesel production mainly proceeds through homogenous and heterogeneous catalysis via trans-esterification method. The review further discusses the significance of nanocatalyst in heterogeneous catalysis based trans-esterification for large scale biodiesel production. With the advent of nanotechnology, designing and modification of nanocatalyst gives rise to attractive properties such as increased surface area, high thermal stability, and enhanced catalytic activity. The role of nanocatalysts have been extensively studied and investigated in regard to the increased biodiesel production. Along with the modification of nanocatalysts, we have briefly discussed the physico-chemical properties and the role of the optimization parameters as it plays a pivotal role in enhancing the biodiesel production commercially.

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Fe3O4-PDA-Lipase as Surface Functionalized Nano Biocatalyst for the Production of Biodiesel Using Waste Cooking Oil as Feedstock: Characterization and Process Optimization

Cited by 81 publications

References 47 publications

Biodiesel production by lipase‐catalyzed reactions: bibliometric analysis and study of trends

Biodiesel production by lipase‐catalyzed reactions: bibliometric analysis and study of trends

Removal of Sulfadiazine Using 3D Interconnected Petal-Like Magnetic Reduced Graphene Oxide (MrGO) Nanocomposites

Fabrication and Optimization of Nanocatalyst for Biodiesel Production: An Overview

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