Flame spray pyrolysis synthesis and aerosol deposition of nanoparticle films

Tricoli, Antonio; Elmøe, Tobias Dokkedal

doi:10.1002/aic.13739

Cited by 48 publications

(67 citation statements)

References 58 publications

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“…Furthermore, here, a linear correlation was determined between the deposition time and the film absorbance (Figure d). This indicates a constant BiVO 4 mass deposition rate at each HAB in line with previous modeling of the aerosol deposition process . Moreover, the film thickness increased also linearly with the deposition time indicating that a constant porosity is obtained at each HAB (Figure S2 and S3, Table S1, Supporting Information).…”

Section: Resultssupporting

confidence: 88%

“…Very recently, direct deposition of flame‐made nanoparticle aerosols has been used to produce mechanically stable hierarchical electrodes for ZnO‐based dye‐sensitized solar cells and efficient WO 3 photoanodes . This high‐temperature self‐assembly approach could also potentially provide a solution to apply a more favorable temperature profile for the synthesis of BiVO 4, besides being a well‐established route for the mass production of numerous nanoparticle commodities such as carbon black, fumed silica, and Degussa P25.…”

Section: Introductionmentioning

confidence: 99%

“…This allows for a direct control of the specific surface area of the sample and hence on the amount of active sites that promote the reactions. Decreasing HAB from 15 to 6 cm increases the surface temperature from 600 to 800 C. Taking advantage of the constant nanoparticle flux depositing from the aerosol, [23] the mass loading and optical density of the films were linearly controlled by the deposition time, enabling the fabrication of well-controlled morphologies. To remove any surface impurities adsorbed during the flame synthesis, all films were calcined in air at 450 C after deposition.…”

Section: Introductionmentioning

confidence: 99%

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High‐Temperature One‐Step Synthesis of Efficient Nanostructured Bismuth Vanadate Photoanodes for Water Oxidation

Trần‐Phú

Chen

et al. 2019

Energy Tech

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Bismuth vanadate (BiVO4) is a promising photoanode material for photoelectrochemical water splitting due to its well‐suited valence band edge and comparatively narrow band gap. First insights on the high‐temperature and scalable synthesis of efficient nanostructured BiVO4 photoanodes for water oxidation are provided. Nanostructured BiVO4 films with a tunable optical density and porosity ranging from 12% to 80% are synthesized in few seconds by direct deposition of flame‐made BiVO4 nanoparticle aerosols. The impact of the BiVO4 film structural properties on the photooxidation performance has been systematically investigated by a set of electrochemical and physical characterizations indicating key directions for its morphological optimization. It is found that the BiVO4 water oxidization performance is mainly determined by two competitive factors, viz., accessible surface area and carrier conductivity through the grain boundaries. Optimization of these two factors increases the photocurrent densities by more than three times resulting in ≈1.5 mA cm−2 for sulfite oxidation and ≈1 mA cm−2 for water oxidation with a FeOOH/NiOOH co‐catalyst at 1.0 V vs the reversible hydrogen electrode (RHE) under simulated 1 sun illumination. These findings provide novel insights into the structure–activity relationships of high‐temperature synthesized BiVO4 photoanodes for solar‐powered water splitting and introduce a scalable and low‐cost approach for their rapid nanofabrication.

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Section: Resultssupporting

confidence: 88%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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High‐Temperature One‐Step Synthesis of Efficient Nanostructured Bismuth Vanadate Photoanodes for Water Oxidation

Trần‐Phú

Chen

et al. 2019

Energy Tech

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“…2b), the agglomerates were iden-tied as clusters of TiO 2 primary particles with a size between 5 and 50 nm. 38 Most importantly, the TiO 2 agglomerate size obtained here is sufficiently large (>50 nm) to maximize circulation time for drug delivery, avoiding both renal ltration and vascular fenestration, while their elongated chain-like morphology (Fig. Here, dynamic light scattering analysis showed a unimodal particle size distribution with a hydrodynamic diameter (d H ) of 180 nm and a quasi-lognormal shape (s g ¼ 1.306).…”

Section: Flame Synthesis Of Nanostructured Tio 2 Agglomeratesmentioning

confidence: 64%

“…1a). 38 The XRD analysis (ESI, Fig. 23 A high precursor concentration (0.5 mol l À1 ) and feed rate (5 ml min À1 ) were used to ensure the scalability of the nanocarrier synthesis process and structural properties.…”

Section: Flame Synthesis Of Nanostructured Tio 2 Agglomeratesmentioning

confidence: 99%

Low-cost photo-responsive nanocarriers by one-step functionalization of flame-made titania agglomerates withl-Lysine

Gilroy

Stricker

et al. 2015

J. Mater. Chem. B

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A novel versatile photo-responsive nanocarrier that is able to load and release several functional molecules is obtained by one-step conjugation of scalable flame-made titania agglomerates. Highly crystalline anatase nano-crystals are synthesized by scalable flame spray pyrolysis of organometallic precursor solutions.Nanocarriers are self-assembled by adsorption of lysine molecules on the photocatalytic nanoparticles' surface leading to a minimal flocculation and highly reactive amine terminations. Time-controlled photo-release of the ligand and end-loaded molecules is achieved by short exposure to UV light. The application of these flexible nanoplatforms to intracellular delivery is demonstrated by dye loading and two-photon microscopic in vitro imaging of their penetration in living neurons of Wistar rat brain tissue.These scalable photo-responsive nanocarriers are a flexible platform with potential for in vivo controlled release of amine-reactive dyes and amino-acid modified pro-drugs, as demonstrated by the successful loading and release of fluorescein isothiocyanate dye (FITC) and ketoprofen.

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Multiscale Engineering and Scalable Fabrication of Super(de)wetting Coatings

Wong

Tricoli

2018

Advanced Coating Materials

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Flame spray pyrolysis synthesis and aerosol deposition of nanoparticle films

Cited by 48 publications

References 58 publications

High‐Temperature One‐Step Synthesis of Efficient Nanostructured Bismuth Vanadate Photoanodes for Water Oxidation

High‐Temperature One‐Step Synthesis of Efficient Nanostructured Bismuth Vanadate Photoanodes for Water Oxidation

Low-cost photo-responsive nanocarriers by one-step functionalization of flame-made titania agglomerates withl-Lysine

Multiscale Engineering and Scalable Fabrication of Super(de)wetting Coatings

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