Steven V. Iasella scite author profile

We report that a variety of ternary particle/liquid/liquid mixtures heavily aggregate or separate completely if (1) the particles are fully or almost fully wetted by one fluid, and (2) if the wetting fluid volume fraction is comparable to the particle volume fraction. Aggregation and separation do not happen if the particles are partially wetted by both fluids, in which case Pickering emulsions appear at all compositions. Rheological and geometric criteria for aggregation are proposed and compared with a state diagram of a ternary system composed of oil, water, and hydrophilic glass particles. Analogies are drawn to wet granulation and spherical agglomeration, two particle processing operations in which wetting phenomena are important.

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Flow regime transitions and effects on solute transport in surfactant-driven Marangoni flows

Iasella¹,

Sun²,

Zhang³

et al. 2019

Journal of Colloid and Interface Science

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Dilatational and shear rheology of soluble and insoluble monolayers with a Langmuir trough

Ciutara

Barman²,

Iasella³

et al. 2023

Journal of Colloid and Interface Science

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Surfactant-induced Marangoni transport of lipids and therapeutics within the lung

Stetten

Iasella

Corcoran

et al. 2018

Current Opinion in Colloid & Interface Science

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Understanding the fundamentals of surface transport on thin viscous films has important application in pulmonary drug delivery. The human lung contains a large-area interface between its complex fluid lining and inhaled air. Marangoni flows driven by surface tension gradients along this interface would promote enhanced distribution of inhaled therapeutics by carrying them from where they are deposited in the upper airways, along the fluid interface to deeper regions of the lung. Motivated by the potential to improve therapies for acute and chronic lung diseases, we review recent progress in modeling and experimental studies of Marangoni transport induced by the deposition of surfactant-containing microliter drops and liquid aerosols (picoliter drops) onto a fluid interface. The roles of key system variables are identified, including surfactant solubility, drop miscibility with the subphase, and the thickness, composition and surface properties of the subphase liquid. Of particular interest is the unanticipated but crucial role of aerosol processing to achieve Marangoni transport via phospholipid vesicle dispersions, which are likely candidates for a biocompatible delivery system. Progress in this field has the potential to not only improve outcomes in patients with chronic and acute lung diseases, but also to further our understanding of surface transport in complex systems.

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Aerosolizing Lipid Dispersions Enables Antibiotic Transport Across Mimics of the Lung Airway Surface Even in the Presence of Pre-existing Lipid Monolayers

Iasella

Stetten

Corcoran

et al. 2018

Journal of Aerosol Medicine and Pulmonary Drug Delivery

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Transport of tobramycin away from the deposition region occurs in aerosols formulated with DPPC whether or not predeposited lipid is present, and tobramycin concentrations are similar in both cases across biologically relevant length scales (∼8 cm). When DPPC is deposited from an aerosol, it induces ultralow surface tensions (<5 mN/m), which drive Marangoni flows, even in the presence of a dense background layer of DPPC. Therefore, aerosolized phospholipids, such as DPPC, will likely be effective spreading agents in the human lung.

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Steven V. Iasella

Aggregation and Separation in Ternary Particle/Oil/Water Systems with Fully Wettable Particles

Flow regime transitions and effects on solute transport in surfactant-driven Marangoni flows

Dilatational and shear rheology of soluble and insoluble monolayers with a Langmuir trough

Surfactant-induced Marangoni transport of lipids and therapeutics within the lung

Aerosolizing Lipid Dispersions Enables Antibiotic Transport Across Mimics of the Lung Airway Surface Even in the Presence of Pre-existing Lipid Monolayers

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