Langevin Approach to Modeling of Small Levitating Ordered Droplet Clusters

Nurken E. Aktaev; Alexander A. Fedorets; Edward Y. Bormashenko; Michael Nosonovsky

doi:10.1021/acs.jpclett.8b01693

Langevin Approach to Modeling of Small Levitating Ordered Droplet Clusters

Nurken E. Aktaev
, Alexander A. Fedorets
, Edward Y. Bormashenko
, Michael Nosonovsky

הנדסה כימית

פרסום מחקרי: פרסום בכתב עת › מאמר › ביקורת עמיתים

22 ציטוטים ‏(Scopus)

תקציר

A self-assembled cluster of microdroplets levitating over a heated water surface is a fascinating phenomenon with potential applications for microreactors and for chemical and biological analysis of small volumes of liquids. Recently, we suggested a method to synthesize a cluster with an arbitrary number of small monodisperse droplets. However, the interactions, which control the structure of the cluster, are still not well understood. Here we propose a Langevin computational model considering the aerodynamic forces between the droplets and random diffusion-like fluctuations. Characteristic length and time scales and scaling relationships of interactions are discussed. The model shows excellent agreement with experimental observations for a small number of droplets.

שפה מקורית	אנגלית
עמודים (מ-עד)	3834-3838
מספר עמודים	5
כתב עת	Journal of Physical Chemistry Letters
כרך	9
מספר גיליון	14
מזהי עצם דיגיטלי (DOIs)	https://doi.org/10.1021/acs.jpclett.8b01693
סטטוס פרסום	פורסם - 19 יולי 2018

גישה למסמך

10.1021/acs.jpclett.8b01693

קבצים וקישורים אחרים

Link to publication in Scopus

פורמט ציטוט ביבליוגרפי

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title = "Langevin Approach to Modeling of Small Levitating Ordered Droplet Clusters",

abstract = "A self-assembled cluster of microdroplets levitating over a heated water surface is a fascinating phenomenon with potential applications for microreactors and for chemical and biological analysis of small volumes of liquids. Recently, we suggested a method to synthesize a cluster with an arbitrary number of small monodisperse droplets. However, the interactions, which control the structure of the cluster, are still not well understood. Here we propose a Langevin computational model considering the aerodynamic forces between the droplets and random diffusion-like fluctuations. Characteristic length and time scales and scaling relationships of interactions are discussed. The model shows excellent agreement with experimental observations for a small number of droplets.",

author = "Aktaev, \{Nurken E.\} and Fedorets, \{Alexander A.\} and Bormashenko, \{Edward Y.\} and Michael Nosonovsky",

note = "Publisher Copyright: Copyright {\textcopyright} 2018 American Chemical Society.",

year = "2018",

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doi = "10.1021/acs.jpclett.8b01693",

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AU - Aktaev, Nurken E.

AU - Fedorets, Alexander A.

AU - Bormashenko, Edward Y.

AU - Nosonovsky, Michael

PY - 2018/7/19

Y1 - 2018/7/19

N2 - A self-assembled cluster of microdroplets levitating over a heated water surface is a fascinating phenomenon with potential applications for microreactors and for chemical and biological analysis of small volumes of liquids. Recently, we suggested a method to synthesize a cluster with an arbitrary number of small monodisperse droplets. However, the interactions, which control the structure of the cluster, are still not well understood. Here we propose a Langevin computational model considering the aerodynamic forces between the droplets and random diffusion-like fluctuations. Characteristic length and time scales and scaling relationships of interactions are discussed. The model shows excellent agreement with experimental observations for a small number of droplets.

AB - A self-assembled cluster of microdroplets levitating over a heated water surface is a fascinating phenomenon with potential applications for microreactors and for chemical and biological analysis of small volumes of liquids. Recently, we suggested a method to synthesize a cluster with an arbitrary number of small monodisperse droplets. However, the interactions, which control the structure of the cluster, are still not well understood. Here we propose a Langevin computational model considering the aerodynamic forces between the droplets and random diffusion-like fluctuations. Characteristic length and time scales and scaling relationships of interactions are discussed. The model shows excellent agreement with experimental observations for a small number of droplets.

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EP - 3838

JO - Journal of Physical Chemistry Letters

JF - Journal of Physical Chemistry Letters

IS - 14

ER -

Langevin Approach to Modeling of Small Levitating Ordered Droplet Clusters

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