Enhanced Photocatalytic Activity of Hydrothermally Synthesized Perovskite Strontium Titanate Nanocubes

Kiran, K; Rajendrachari, Shashanka; Lokesh, S

doi:10.1007/s11244-021-01558-2

Cited by 30 publications

(21 citation statements)

References 69 publications

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“…The FTIR spectra of ST1 samples were heated at 120 °C and calcined at 400 °C are presented in Figure S1. The peaks around 3400 cm -1 and 1600 cm -1 are due to OH groups' O-H stretching and bending vibrations [14,34]. The spectrum of the as-prepared ST1 sample exhibits a band at 1741 cm -1 assigned to -C=O stretching vibrations in the bidentate carboxylate group.…”

Section: Thermal and Ftir Analysismentioning

confidence: 96%

“…Generally, SrTiO 3 could be prepared by ceramic (solid-state, high energy ball milling) and various wet chemical routes such as coprecipitation, sol-gel, Pechini, hydrothermal, solvothermal, sonochemical, and microemulsion [10][11][12][13][14][15][16][17]. Among the numerous synthesis methods, Pechini is one of the practical production techniques for preparing nanopowders due to the relatively simple, homogeneously dispersed gel precursor formation and low-temperature process.…”

Section: Introductionmentioning

confidence: 99%

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Influence of Synthesis Procedures on the Preparation of Strontium Titanate Nanoparticles and Photocatalytic application for Methylene blue degradation

Aktaş

2022

Preprint

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SrTiO3 is a well-known photocatalyst with various applications, such as antibacterial agents, self-cleaning surfaces, and water and air conditioning. In the present study, pure SrTiO3 (ST) photocatalysts were prepared by the high-energy ball milling and Pechini method and then characterized by X-ray diffraction (XRD), thermal gravimetric analysis, FTIR, scanning and transmission electron microscopy, respectively. Structural parameters were evaluated by Rietveld refinement analysis from XRD data, which confirmed the cubic system of SrTiO3. The obtained nanoparticles were used for photocatalytic methylene blue (MB) degradation and the influence of synthesis methods on catalytic activity was investigated. The degradation rate constant of MB on the ST1 (Pechini-synthesized sample) and ST2 (high energy ball milled sample) is 0.0151 and 0.0092 min-1, respectively. The better photocatalytic activity of the ST1 demonstrated 93% degradation of dye under the solar light simulator. The photocatalytic reaction data provided well a first-order kinetic model.

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Section: Thermal and Ftir Analysismentioning

confidence: 96%

Section: Introductionmentioning

confidence: 99%

Influence of Synthesis Procedures on the Preparation of Strontium Titanate Nanoparticles and Photocatalytic application for Methylene blue degradation

Aktaş

2022

Preprint

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“…Doping and heterojunction design can be used to obtain ZnO with improved crystal quality and optical properties and to reduce the charge carrier recombination. − Moreover, tuning the nanostructure morphology is another important aspect in the development of photocatalysts with a potential research interest. ,, The design of different nanostructures requires different types of structure-directing agents (SDA) or templates and includes different material preparation routes such as sol–gel, coprecipitation, hydrothermal, and microwave-assisted methods. ,, However, these methods require different solvents, toxic reducing agents, and other basic media such as KOH, NaOH, and NH 4 OH, which are costly, harmful, and highly reactive in the environment . Therefore, green synthesis is a new approach to nanomaterial synthesis that minimizes environmental impact and has many advantages over traditional synthesis routes, for example, it is more cost-effective and environmentally friendly. ,− Green synthesis methods use plant extracts (from roots, leaves, and flowers), peel extracts, microorganisms, algae, and so forth . The formation of most oxide semiconductors via traditional and green chemical synthesis routes requires basic media; however, the use of synthetic bases consumes a large amount of chemical energy during nanomaterial synthesis.…”

Section: Introductionmentioning

confidence: 99%

“…Therefore, it is necessary to develop, implement, and improve numerous policy measures and innovative methods to lessen the impact of waste on people and the environment. With an increasing interest in the green synthesis of nanomaterials, − researchers have focused on selecting waste products to prepare ZnO nanomaterials, transforming waste into a value-added product. Such a protocol replaces the homogeneous hazardous bases like NaOH or KOH.…”

Section: Introductionmentioning

confidence: 99%

Nanostructural Design of ZnO Using an Agro-Waste Extract for a Sustainable Process and Its Photocatalytic Activity

Wary,

Narzary,

Brahma

et al. 2023

ACS Appl. Bio Mater.

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The use of agro-waste extracts (AWEs) as a sustainable medium for developing cost-effective and ecologically friendly nanomaterials has piqued the interest of current researchers. Herein, waste extracts from papaya barks, banana peels, thumba plants, and snail shells were used for synthesizing ZnO nanostructures via a hydrothermal method, followed by calcination at 400 °C. The crystallinity and pure wurtzite phase formation of ZnO nanostructures were confirmed via X-ray diffraction. ZnO nanostructures with various morphologies such as tight sheet-like, spherical, porous sheet-like, and bracket-shaped, comprising small interconnected particles with a highly catalytically active exposed (0001) facet, were observed via field emission scanning electron microscopy and transmission electron microscopy. The formation mechanism of the various morphologies of the ZnO nanostructures was proposed. Ultraviolet–visible spectra showed different absorption band edges of ZnO nanostructures with a bandgap in the range of 3.17–3.27 eV. Photoluminescence studies showed the presence of various defect states such as oxygen and zinc vacancies and oxygen and zinc interstitials on ZnO nanostructures, which are usually observed in traditionally prepared ZnO. The photocatalytic activity of ZnO nanostructures was evaluated under direct sunlight using rhodamine B (RhB) and Congo red (CR) dyes as probe pollutants. Furthermore, prepared ZnO nanostructures could potentially adsorb anionic dyes (e.g., CR) in the absence of light. Superoxide and hydroxide radicals played a vital role in the photocatalytic activity of ZnO. The photocatalyst could be reused for up to three cycles, indicating its stability. Therefore, this study reports the diverse use of AWEs as cost-effective media for nanomaterial synthesis.

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“…There are widely used methods for the separation of MB from the environment, including biological processes, − adsorption, − membranes, − ion exchange, coagulation processes, − hybrid processes, − and enhanced photocatalytic processes. − However, these methods have drawbacks such as the high capital and operating costs required for membrane processes, high chemical consumption during coagulation/flocculation for pH adjustment and adsorption/ion exchange for sorbent regeneration, pollution transfer from one phase to another during adsorption/ion exchange, high sludge production during coagulation, the requirement for an enabling environment for biological processes, and the low removal efficiency of MB. , As a result, enhancements to existing technologies are required to overcome these disadvantages. So far, electrochemical anodic oxidation processes (EAOPs) have received great interest for the treatment of aqueous media containing organic pollutants as they have advantages over their counterparts in terms of being eco-friendly, needing simple equipment and operation, no sludge formation, and relatively higher removal efficiencies. − …”

Section: Introductionmentioning

confidence: 99%

Electrochemical Degradation of Methylene Blue by a Flexible Graphite Electrode: Techno-Economic Evaluation

et al. 2022

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In this study, electrochemical removal of methylene blue (MB) from water using commercially available and low-cost flexible graphite was investigated. The operating conditions such as initial dye concentration, initial solution pH, electrolyte dose, electrical potential, and operating time were investigated. The Box-Behnken experimental design (BBD) was used to optimize the system’s performance with the minimum number of tests possible, as well as to examine the independent variables’ impact on the removal efficiency, energy consumption, operating cost, and effluent MB concentration. The electrical potential and electrolyte dosage both improved the MB removal efficiency, since increased electrical potential facilitated production of oxidizing agents and increase in electrolyte dosage translated into an increase in electrical current transfer. As expected, MB removal efficiency increased with longer operational periods. The combined effects of operating time–electrical potential and electrical potential–electrolyte concentration improved the MB removal efficiency. The maximum removal efficiency (99.9%) and lowest operating cost (0.012 $/m 3 ) were obtained for initial pH 4, initial MB concentration 26.5 mg/L, electrolyte concentration 0.6 g/L, electrical potential 3 V, and operating time 30 min. The reaction kinetics was maximum for pH 5, and as the pH increased the reaction rates decreased. Consequent techno-economic assessment showed that electrochemical removal of MB using low-cost and versatile flexible graphite had a competitive advantage.

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Enhanced Photocatalytic Activity of Hydrothermally Synthesized Perovskite Strontium Titanate Nanocubes

Cited by 30 publications

References 69 publications

Influence of Synthesis Procedures on the Preparation of Strontium Titanate Nanoparticles and Photocatalytic application for Methylene blue degradation

Influence of Synthesis Procedures on the Preparation of Strontium Titanate Nanoparticles and Photocatalytic application for Methylene blue degradation

Nanostructural Design of ZnO Using an Agro-Waste Extract for a Sustainable Process and Its Photocatalytic Activity

Electrochemical Degradation of Methylene Blue by a Flexible Graphite Electrode: Techno-Economic Evaluation

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