Synthesis, Characterization and Catalytic Properties of Perovskite LaFeO<sub>3</sub>Nanoparticles

Afifah, Nur; Saleh, Rosari

doi:10.1088/1742-6596/710/1/012030

Cited by 26 publications

(7 citation statements)

References 28 publications

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“…Moreover, LFO are known to show multiferroic behaviour that is the co-existence of both ferroelectric and ferro/ferri-magnetic or antiferromagnetic properties. [4] Different methodologies are there in the literature to synthesize LFO NPs like co-precipitation method, [5] solution autocombustion method, [6] sonochemical method, [7] sol-gel technique, [8] hydrothermal method, [9] Reverse Microemulsion method, [10] polymerizable complex method, [11] thermal decomposition, [12] solid-state reaction [13] and many more. Among these, the solution autocombustion method offers lots of advantages.…”

Section: Introductionmentioning

confidence: 99%

Autocombustion‐Promoted Synthesis of Lanthanum Iron Oxide: Application as Heterogeneous Catalyst for Synthesis of Piperidines, Substituted Amines and Light‐Assisted Degradations

Pratibha

Rajput

2020

ChemistrySelect

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An autocombustion technique was adopted to synthesize the Perovskite structured Lanthanum iron oxide nanoparticles (LaFeO3, abbreviated as LFO NPs). This technique offered lots of benefits such as short reaction time along with quick heating rate. LFO NPs were fabricated at different calcination temperatures (300‐800 °C) through the aid of sucrose as chelating agent. The prepared LFO NPs were well characterized by various techniques like X‐ray diffraction (XRD), Fourier transform infrared spectroscopy (FT‐IR), Vibrating sample magnetometer (VSM), Ultraviolet‐Visible spectroscopy (UV‐Vis), Brunauer–Emmett–Teller (BET), X‐ray Photo‐Electron Spectroscopy (XPS) and Transmission electron microscopy (TEM) which affirmed that highly crystalline LFO NPs were obtained at 700 °C. Subsequently, the catalytic activity of the LFO NPs was surveyed for three independent approaches: (i) for the synthesis of functionalized piperidines through activation of carbonyl groups in the reacting partners (ii) for the sunlight‐assisted mineralization of health hazardous food colorant, Allura Red AC (iii) for the hydrogenation of nitro aromatic compounds (NACs) using NaBH4 (sodium borohydride) as source of hydrogen in aqueous medium at room temperature.

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Section: Introductionmentioning

confidence: 99%

Autocombustion‐Promoted Synthesis of Lanthanum Iron Oxide: Application as Heterogeneous Catalyst for Synthesis of Piperidines, Substituted Amines and Light‐Assisted Degradations

Pratibha

Rajput

2020

ChemistrySelect

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“…LaCl3.7H2O (Merck), FeCl2.4H2O (Merck), and NaOH (Merck) were used to synthesize LaFeO3 nanoparticle based on our previous work [10]. Nanographene Platelets (Angstron Materials) and Graphene (Angstron Materials) with different specific surface areas of 30 m 2 /g and 400 m 2 /g were used to synthesize the composites which were labeled with LaFeO3/SA-1 and LaFeO3/SA-2, respectively.…”

Section: Experimental Methodsmentioning

confidence: 99%

The effect of different graphene surface area on photocatalytic activity of LaFeO3 nanoparticles

Afifah

Saleh²

2017

AIP Conference Proceedings

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Abstract. LaFeO3 composites with a different surface area of graphene (SA-1 and SA-2) have been prepared using the co-precipitation method. The samples were characterized by some measurements such as X-ray diffraction (XRD), Brunauer-Emmet-Teller (BET) surface area analysis, Fourier-transform infrared absorption (FTIR), and Vibrating Sample Magnetometer (VSM). LaFeO3 nanoparticle and its composites showed orthorhombic structure. The presence of graphene in the composites was also confirmed. The characterized samples were further used to remove methylene blue under visible light irradiation. The obtained results revealed that incorporation of graphene in the composites results a significantly higher photocatalytic activity compared to LaFeO3 nanoparticles. The apparent reaction constant of LaFeO3/SA-2 composite with a highest specific surface area of 123 m 2 /g showed the fastest degradation in the photocatalytic process. Furthermore, the main factors in the photocatalytic activity were studied and discussed.

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“…14 The sonication methods are promising alternatives to conventional methods due to its decreased time and energy requirements. 15 However, the utilization of complex and energy-intensive reagents in mainstream synthesis methods have influenced researchers in the direction of "green synthesis". Plant extracts have been successfully used as reducing agent or stabilizing agents in this process.…”

Section: ■ Introductionmentioning

confidence: 99%

“…In addition, vapor phase methods of LFO bulk synthesis were reported that utilize spray–flame pyrolysis . The sonication methods are promising alternatives to conventional methods due to its decreased time and energy requirements . However, the utilization of complex and energy-intensive reagents in mainstream synthesis methods have influenced researchers in the direction of “green synthesis”.…”

Section: Introductionmentioning

confidence: 99%

Sustainable Synthesis Strategies: A Comparative Life Cycle Perspective on LaFeO₃ Nanoparticles

Nandikes,

Pandey,

Pathak

et al. 2024

ACS Sustainable Chem. Eng.

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Perovskite oxides, particularly LaFeO 3 (LFO), have gained significant attention due to their diverse applications in catalysis, energy storage, solar cells, and environmental remediation. However, the environmental impacts associated with their production remain largely unexplored. The present study demonstrates a comprehensive life cycle assessment (LCA) of experimentally synthesized LFO nanoparticles (NPs) by a hydrothermal method against 7 mainstream synthesis routes, focusing on their environmental and resource implications. The mass and specific surface area were kept as functional units in the cradle-to-gate LCA study that utilizes TRACI midpoint and ReCiPe end point methods to quantify the environmental impacts associated with LFO NPs synthesis routes and precursors. Key environmental indicators such as greenhouse gas (GHG) emissions, cumulative energy demand (CED), and health impacts are assessed using LCA methodologies. Furthermore, sensitivity analysis is conducted to identify critical factors influencing LCA and to prioritize areas for improvement in synthesis chemistry. It is revealed that green synthesis produced the highest environmental impact, with a global warming (GW) potential of 33.52 kg of CO 2 eq and ecotoxicity (ET) of 30.32 CTUe for 1 kg of LFO NPs. However, microwave, sonication and hydrothermal synthesis produced 38− 52% less environmental impact compared to green synthesis. The experimental lab-scale inventory data and LCA analysis fill in the existing data gaps and aid future studies on the sustainable synthesis of LFO NPs and other ABO 3 type perovskites for industrial settings.

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Synthesis, Characterization and Catalytic Properties of Perovskite LaFeO₃Nanoparticles

Cited by 26 publications

References 28 publications

Autocombustion‐Promoted Synthesis of Lanthanum Iron Oxide: Application as Heterogeneous Catalyst for Synthesis of Piperidines, Substituted Amines and Light‐Assisted Degradations

Autocombustion‐Promoted Synthesis of Lanthanum Iron Oxide: Application as Heterogeneous Catalyst for Synthesis of Piperidines, Substituted Amines and Light‐Assisted Degradations

The effect of different graphene surface area on photocatalytic activity of LaFeO3 nanoparticles

Sustainable Synthesis Strategies: A Comparative Life Cycle Perspective on LaFeO₃ Nanoparticles

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Synthesis, Characterization and Catalytic Properties of Perovskite LaFeO3Nanoparticles

Cited by 26 publications

References 28 publications

Autocombustion‐Promoted Synthesis of Lanthanum Iron Oxide: Application as Heterogeneous Catalyst for Synthesis of Piperidines, Substituted Amines and Light‐Assisted Degradations

Autocombustion‐Promoted Synthesis of Lanthanum Iron Oxide: Application as Heterogeneous Catalyst for Synthesis of Piperidines, Substituted Amines and Light‐Assisted Degradations

The effect of different graphene surface area on photocatalytic activity of LaFeO3 nanoparticles

Sustainable Synthesis Strategies: A Comparative Life Cycle Perspective on LaFeO3 Nanoparticles

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Synthesis, Characterization and Catalytic Properties of Perovskite LaFeO₃Nanoparticles

Sustainable Synthesis Strategies: A Comparative Life Cycle Perspective on LaFeO₃ Nanoparticles