Coating of Silica and Titania Aerosol Nanoparticles by Silver Vapor Condensation

Harra, Juha; Juuti, Paxton; Haapanen, Janne; Sorvali, Miika; Roumeli, Eleftheria; Honkanen, Mari; Vippola, Minnamari; Yli-Ojanperä, Jaakko; Mäkelä, Jyrki M.

doi:10.1080/02786826.2015.1072263

Cited by 5 publications

(5 citation statements)

References 44 publications

(27 reference statements)

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“…The results from the NaCl particles were off as anticipated, most probably due to unwanted particle bounce from the collection plate of the low pressure impactor. This effect also caused the deviation between the measurements of sintered TiO 2 particles and the respective reference measurements, as also reported by Harra et al (2015). Although the reference method also utilizes low pressure impactor stages, the bounce probability is lower because of the limited size ranges of the individual impactor stages.…”

Section: Sensitivity Analysismentioning

confidence: 84%

Real-time effective density monitor (DENSMO) for aerosol nanoparticle production

Juuti

Arffman

Rostedt

et al. 2016

Aerosol Science and Technology

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A new instrument, density monitor (DENSMO), for aerosol particle size distribution characterization and monitoring has been developed. DENSMO is operationally simple and capable of measuring the effective density as well as the aerodynamic and the mobility median diameters with a time resolution of 1 s, from unimodal particle size distributions. The characterization is performed with a zeroth order mobility analyzer in series with a low pressure impactor and a filter stage. The operation of DENSMO was investigated with sensitivity analysis and, based on the results, optimal operation parameters were determined. DENSMO was also compared, in lab test measurements, against a reference method with several particle materials with bulk densities from 0.92 to 10.5 g/cm 3 . The results show that the deviation from the reference method was less than 25% for suitable materials.

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Section: Sensitivity Analysismentioning

confidence: 84%

Real-time effective density monitor (DENSMO) for aerosol nanoparticle production

Juuti

Arffman

Rostedt

et al. 2016

Aerosol Science and Technology

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“…That is, alumina particles are formed earlier in the hot flame, whereas, silver will readily vaporize in the flame, and thus, also produce no residual particles. In evaporation–condensation type aerosol nanoparticle generators the wall losses for silver vapor have also been substantial . SEM micrographs of silver nanoparticles collected on the stage number 3 of the DLPI, with an aerodynamic cutpoint diameter of 108 nm, are shown in Figure .…”

Section: Resultsmentioning

confidence: 99%

“…The particles were generated with the Liquid Flame Spray (LFS) technique that employs a hydrogen–oxygen flame, used recently, for instance, for producing functional nanoparticle coatings, nanopowders, and test aerosols . A detailed description of the LFS technique can be found from previous publications, including the dimensions of the used burner (the LR burner), gas velocities, and flame temperatures .…”

Section: Methodsmentioning

confidence: 99%

Aerosol analysis of residual and nanoparticle fractions from spray pyrolysis of poorly volatile precursors

et al. 2016

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The quality of aerosol‐produced nanopowders can be impaired by micron‐sized particles formed due to non‐uniform process conditions. Methods to evaluate the quality reliably and fast, preferably on‐line, are important at industrial scales. Here, aerosol analysis methods are used to determine the fractions of nanoparticles and micron‐sized residuals from poorly volatile precursors. This is accomplished using aerosol instruments to measure the number and mass size distributions of Liquid Flame Spray‐generated alumina and silver particles produced from metal nitrates dissolved in ethanol and 2‐ethylhexanoic acid (EHA). The addition of EHA had no effect on silver, whereas, 5% EHA concentration was enough to shift the alumina mass from the residuals to nanoparticles. The size‐resolved aerosol analysis proved to be an effective method for determining the product quality. Moreover, the used on‐line techniques alone can be used to evaluate the process output when producing nanopowders, reducing the need for tedious off‐line analyses. © 2016 American Institute of Chemical Engineers AIChE J, 63: 881–892, 2017

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“…Among the physical techniques used in the synthesis of AgNPs, those that use evaporation (e.g., condensation) and laser ablation processes stand out. The evaporation/condensation processes are based on the formation of silver vapors and consequent cooling; however, this technique requires large energy expenditures to keep the heating system stable and above 1,000 °C (Harra et al, 2015). The laser ablation method involves "cutting" the silver to its conventional size with nanometrically calculated laser beams .…”

Section: Synthesis Of Agnpsmentioning

confidence: 99%

The use of silver hydrogel in wound treatment as an alternative to reduce antibiotic-resistant pathogens

Goulart

2022

RSD

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Medical science is currently at an early stage for effectively controlling skin damage. One of the main barriers to good wound healing is bacterial infection, which poses a risk of long-term harmful effects. A clean wound, free of bacterial infections, is essential for the quick and effective regeneration of the skin. Hydrogel is one of the best biomaterials for antibiotic delivery in wound areas due to its high hydrophilicity, distinctive three-dimensional network, good biocompatibility, and cell adherence. Although many antibiotics are successful in treating infected wounds, improper or repetitive use of these medications may cause germs to become resistant. Notoriously, antimicrobial resistance in pathogenic bacteria is already considered a serious global public health issue. Recently, the use of silver associated with nanotechnology has been reconsidered as an important alternative to reduce the spread of antibiotic-resistant pathogens. Silver hydrogel dressings have become effective agents in wound management, substituting the use of antibiotics. The objective of this review is to show the importance of hydrogels in wound treatments, as well as the antibacterial properties of silver hydrogels and their implications in wound care.

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Coating of Silica and Titania Aerosol Nanoparticles by Silver Vapor Condensation

Cited by 5 publications

References 44 publications

Real-time effective density monitor (DENSMO) for aerosol nanoparticle production

Real-time effective density monitor (DENSMO) for aerosol nanoparticle production

Aerosol analysis of residual and nanoparticle fractions from spray pyrolysis of poorly volatile precursors

The use of silver hydrogel in wound treatment as an alternative to reduce antibiotic-resistant pathogens

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