Barrier kinetics of adsorption–desorption of alcohol monolayers on water under constant surface tension

Minkov, I.; Arabadzhieva, D.; Salama, Ibrahim E.; Mileva, Elena; Slavchov, Radomir I.

doi:10.1039/c8sm02076k

Cited by 13 publications

(22 citation statements)

References 76 publications

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“…Once all the adsorbed arms of one star are desorbed from the planet NP surface, the star polymer can escape from the shell. Therefore, the desorption rate of short and long stars can be expressed as where c ads,s and c ads,l represent the arm-end concentrations of the adsorbed short and long stars within the shell between r = R np and r = r max i ( i = s, l), which are related to the adsorption densities by The factors β s and β l account for the significant reduction of the desorption rate due to the adsorption–desorption barrier and the multiarm attachment. , …”

Section: Methodsmentioning

confidence: 99%

“…where c ads,s and c ads,l represent the arm-end concentrations of the adsorbed short and long stars within the shell between r = R np and r = r max i (i = s, l), which are related to the adsorption densities by The factors β s and β l account for the significant reduction of the desorption rate due to the adsorption−desorption barrier and the multiarm attachment. 43,44 Integration of Rate Equations for σ s (t) and σ l (t). The rate equations for the adsorbed densities of short and long stars become…”

Section: ■ Methodsmentioning

confidence: 99%

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Prediction of Kinetically Stable Nanotheranostic Superstructures: Integral of First-Passage Times from Constrained Simulations

et al. 2020

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The kinetics of forming multifunctional nanostructures, such as nanotheranostic superstructures, is often highly protracted, involving macroscopic time scales and resulting in nanostructures that correspond to kinetically stable states rather than thermodynamic equilibrium. Predicting such kinetically stable nanostructures becomes a great challenge due to the widely different, relevant time scales that are implicated in the formation kinetics of nano-objects. We develop a methodology, integral of first-passage times from constrained simulations (IFS), to predict kinetically stable, planet−satellite nanotheranostic superstructures. The simulation results are consistent with our experimental observations. The developed methodology enables the exploration of time scales from molecular vibrations of 10 −3 ns toward macroscopic scales, 10 10 ns, which permits the rational design and prediction of kinetically stable nanotheranostic superstructures for applications in nanomedicine.

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Section: Methodsmentioning

confidence: 99%

Section: ■ Methodsmentioning

confidence: 99%

Prediction of Kinetically Stable Nanotheranostic Superstructures: Integral of First-Passage Times from Constrained Simulations

et al. 2020

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“…Gravity also has non-negligible effect on  (+6 m at 300 Hz) and has to be accounted for. In comparison, the diffusion correction in the dispersion condition ( 11)-( 12) has effect smaller than the uncertainty limits: the diffusion coefficient of octanol is 7×10 -10 m 2 /s [79], and taking it into account leads to increase in the theoretical values of  by ~2 m and of Ld by ~0.02 mm in the studied frequency range. Therefore, a more accurate approach for the determination of E from Laplace wave characterization would take into account the data for both  and Ld.…”

Section: Wavelength and Decay Lengthmentioning

confidence: 89%

“…The oscillation of  and c is experimentally accessible for fluorescent surfactants [48]. Let the barrier adsorptiondesorption kinetics have negligible effect on the capillary wave characteristics (this is valid for octanol; for alcohols higher than decanol, we expect considerable role of the barrier adsorptiondesorption [79]). Under this assumption, local equilibrium is established between the adsorbed monolayer and the subsurface solution, and the amplitudes C and a are related as:…”

Section: Flat Waves On a Surface Covered With A Surfactantmentioning

confidence: 94%

“…Octanol is of low volatility (the evaporation of hexanol can affect the wave properties significantly). The barrier resistance for adsorption-desorption can be neglected [4] (for higher alcohols, the flip-flop process can be expected to affect the viscoelastic properties of the monolayer [79]). The chosen concentration corresponds to coverage of ~3.3 mol/m 2 , which is about 50% of the collapse value (~6.8 mol/m 2 for normal alkanols).…”

Section: Methodsmentioning

confidence: 99%

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Characterization of capillary waves: A review and a new optical method

2021

Self Cite

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The methods to study capillary waves have been reviewed, together with the emerging practical applications of theirs and new theoretical developments in the field. The focus is on monochromatic ripples of frequency in the range 0.1-10 kHz. A capillary wave apparatus has been constructed that combines several recent advances on the technique. It is based on profilometry of waves decaying with distance, with a highspeed video camera detecting light refracted by the surface. A code to process the images has been developed that executes a regression analysis to determine the characteristics of the wave. High precision and accuracy have been achieved: standard deviation from the mean of ±0.5% for the wavelength and ±7% for the decay length; mean deviations from the theoretical values ±0.2% for the wavelength and ±5% for the decay length. An analytic approximation for the dispersion relation has been used to determine the Gibbs elasticity of a surfactant monolayer from the data for decay length vs. frequency. The elasticity of an octanol monolayer has been determined with precision of ±1 mN/m, in excellent agreement with the theoretical value. Surface tension can be measured from the wavelength data with precision of ±0.3 mN/m. It has been demonstrated that the effect of the surface elasticity on the wavelength is significant and accurate wavelength data can actually be used to determine the elasticity if the surface tension is known.

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Volatile surfactants: Characterization and areas of application

Gurkov

2022

Current Opinion in Colloid & Interface Science

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Barrier kinetics of adsorption–desorption of alcohol monolayers on water under constant surface tension

Abstract: The desorption rate stands between the theoretical curves for pure barrier control (intensive convection) and mixed barrier + diffusion control (no convection).

Cited by 13 publications

References 76 publications

Prediction of Kinetically Stable Nanotheranostic Superstructures: Integral of First-Passage Times from Constrained Simulations

Prediction of Kinetically Stable Nanotheranostic Superstructures: Integral of First-Passage Times from Constrained Simulations

Characterization of capillary waves: A review and a new optical method

Volatile surfactants: Characterization and areas of application

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