Sonochemical and Sonoelectrochemical Production of Energy Materials

Foroughi, Faranak; Lamb, Jacob Joseph; Burheim, Odne Stokke; Pollet, Bruno G.

doi:10.3390/catal11020284

Cited by 30 publications

(24 citation statements)

References 52 publications

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“…On the first main step, the weight loss arose at about 220℃, which is ascribed to the removals of the surface and intercalated water molecules. Further weight loss belongs to the decomposition and elimination of interlayer CO 3 2− anions, as well as the dehydroxylation of metal hydroxide layers to metal oxides [34] , [40] , [44] . Furthermore, the Exf NiFe LDH with a short time (10 min) and low amplitude (60A) has shown extra steps around 240-290℃ and around 400℃ that emancipates from the β-Ni(OH) 2 and β-FeOOH indicated in the XRD.…”

Section: Resultsmentioning

confidence: 99%

“…Recently, the use of sonochemistry for the synthesis of catalysts, especially as energy materials has offered many merits in the light of rapidity, simplicity, efficiency, and environmentally friendliness. [33] , [34] , [35] . In the other hand, the morphology of nanomaterials can be affected greatly by ultrasonication time, power, frequency and as well as the solution volume [36] , [37] , [38] .…”

Section: Introductionmentioning

confidence: 99%

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The impact of ultrasonic parameters on the exfoliation of NiFe LDH nanosheets as electrocatalysts for the oxygen evolution reaction in alkaline media

Munonde

Zheng

2021

Ultrasonics Sonochemistry

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Highlights The influence of parameters on ultrasonic exfoliation of the NiFe LDH in pure water was studied. Various Concentration, amplitude, sonication times were investigated for exfoliation. The optimum condition of ultrasonic exfoliation of 60%, 10 mg mL −1 and 15 min. The best OER activity shows 250 mV overpotential at a current density of 10 mA cm −1. Enriched Fe 3+ were found on the surface of the exfoliated NiFe LDH.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

The impact of ultrasonic parameters on the exfoliation of NiFe LDH nanosheets as electrocatalysts for the oxygen evolution reaction in alkaline media

Munonde

Zheng

2021

Ultrasonics Sonochemistry

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“…For instance, ultrasound can improve the adsorption capacity of adsorbents [83] and allivate the impact conencertation polarization on membrane and electrodes [86]. However, ultrasound physical and chemical effects can lead to the destruction of electrodes just as it is the case with posible membrane surface deterioration [87]. The other possible risk with such combinesd systems is that if the adsorbents are immoblised on membrane surface, ultrasound effects could detach them rendering the membrane structure weak and more prone to serious damage.…”

Section: Mf-usmentioning

confidence: 99%

“…RO technology is successfully used for the treatment of seawater and groundwater. Despite the advantages of RO technology in water purification [87,88], it presents some disadvantages, such as sensitivity to pH and ionic strength, high energy consumption, and requirements for pre-treatment and membrane fouling [137]. The RO process requires high pressure (usually 0.2-1.7 MPa) for fresh and brackish water and 4-8.2 MPa for seawater treatment [138,139].…”

Section: Ro-usmentioning

confidence: 99%

Ultrasound-assisted membrane technologies for fouling control and performance improvement: A review

Naji

Al-Juboori

Khan

et al. 2021

Journal of Water Process Engineering

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Membrane separation is widely used in wastewater treatment and desalination due to its high performance and ability to handle feed solutions of different qualities. Despite vast history of success, membrane fouling remains a major system deficiency that imposes substantial process limitations by reducing permeate production and increasing energy demand. Besides, chemical cleaning-in-place (CIP) adversely affects membrane integrity and generates an extra waste stream. Ultrasound (US) is a relatively new cleaning technique that improves process performance by mitigating fouling accumulation at a membrane surface and improving permeate flux by promoting mass and heat transfer. US-assisted membrane processes is an efficient method for fouling reduction and significant flux improvement. This study comprehensively reviews US applications in pressure-, thermally-and osmotic-driven membrane technologies and their impact on process performance. It also explores the impact of US operating conditions on membrane separation properties and how these parameters can be tuned to achieve the desirable outcome. To date, the application of US in membrane technologies is limited to laboratory tests. In the authors opinion, there is a niche market for US-assisted membrane technology in heavily contaminated water such as wastewater and brine. After critical analysis of the literature, we found that there are still several aspects of the process need to be scrutinized carefully to make an adequate evaluation of its feasibility on an industrial scale. The most urgent one is the techno-economic evaluation of the technology based on large-scale and long-term tests. The study proposed a set of recommendations for future research directions of US applications in membrane technologies.

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“…Sonochemical and sonoelectrochemical production of nanoparticles [10] and plasma glow discharge [11][12][13] are effective for increasing the rate of processes similar to (1)- (3). Plasma electrolysis is one of the relatively new and promising methods for the synthesis of nanomaterials.…”

Section: Introductionmentioning

confidence: 99%

Microplasma Synthesis of Antibacterial Active Silver Nanoparticles in Sodium Polyacrylate Solutions

Shepida

Кuntyi

Sukhatskiy

et al. 2021

Bioinorganic Chemistry and Applications

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The great demand for functional, particularly biologically active, metal nanoparticles has led to the search for technologically effective, green, and controlled methods of synthesizing these metal nanoparticles. Plasma glow discharge is one of the most promising techniques in this direction. The results of studies based on the synthesis of colloidal solutions of stabilized silver nanoparticles (AgNPs) by the microplasma method in solutions of a nontoxic surfactant sodium polyacrylate (NaPA) are presented. It is shown that AgNPs with a size of 2–20 nm are formed in solutions of 0.05–0.2 mmol⋅L−1 AgNO3 + 5 g⋅L−1 NaPA at U = 250 V by tungsten cathode plasma glow discharge. At 20°C, the yellow solutions are formed with λmax ≈ 410 nm, which are stable during long-term storage. It was found that the process of AgNPs formation corresponds to a first-order reaction on the AgNO3 concentration. Its value has little effect on the geometry of nanoparticles, so the Ag(I) concentration in solution is one of the main factors influencing the rate of microplasma synthesis of AgNPs. The antimicrobial activity of synthesized AgNPs solutions against strains of Escherichia coli, Staphylococcus aureus, and Candida albicans was established.

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Sonochemical and Sonoelectrochemical Production of Energy Materials

Cited by 30 publications

References 52 publications

The impact of ultrasonic parameters on the exfoliation of NiFe LDH nanosheets as electrocatalysts for the oxygen evolution reaction in alkaline media

The impact of ultrasonic parameters on the exfoliation of NiFe LDH nanosheets as electrocatalysts for the oxygen evolution reaction in alkaline media

Ultrasound-assisted membrane technologies for fouling control and performance improvement: A review

Microplasma Synthesis of Antibacterial Active Silver Nanoparticles in Sodium Polyacrylate Solutions

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