Evaporation Induced Spontaneous Micro‐Vortexes through Engineering of the Marangoni Flow

Cai, Zheren; Huang, Zhandong; Li, Zheng; Su, Meng; Zhao, Zhipeng; Qin, Feifei; Zhang, Zeying; Yang, Jun; Song, Yanlin

doi:10.1002/anie.202008477

Cited by 18 publications

(11 citation statements)

References 42 publications

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“…Therefore, the hydrophilic substrate is beneficial for the Janus-1/SDS configuration and adverse for the Janus-2/CTAB configuration. On the other hand, as previously reported, 40 the surfactant can induce Marangoni flow and suppress the coffee ring effect, which also plays a vital role in the actual assembly (Figure 2e,f). As shown in Figure S14, the coffee ring effect overcrowded the particles at edges and caused the disordered aggregation (Figure S13) at low surfactant concentration, which is competitive for interfacial patterning.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

Orientation-Controlled Ultralong Assembly of Janus Particles Induced by Bubble-Driven Instant Quasi-1D Interfaces

Gao

Sun

et al. 2023

J. Am. Chem. Soc.

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Constructing precisely oriented assemblies and exploring their orientation-dependent properties remain a challenge for Janus nanoparticles (JNPs) due to their asymmetric characteristics. Herein, we propose a bubble-driven instant quasi-1D interfacial strategy for the oriented assembly of JNP chains in a highly controllable manner. It is found that the rapid formation of templated bubbles can promote the interfacial orientation of JNPs kinetically, while the confined quasi-1D interface in the curved liquid bridge can constrain the disordered rotation of the particles, yielding well-oriented JNP chains in a long range. During the evaporation process, the interfacial orientation of the JNPs can be transferred to the assembled chains. By regulating the amphiphilicity of the JNPs, both heteraxial and coaxial JNP assemblies are obtained, which show different polarization dependences on light scattering, and the related colorimetric logic behaviors are demonstrated. This work demonstrates the great potential of patterned interfacial assembly with a manageable orientation and shows the broad prospect of asymmetric JNP assembly in constructing novel optoelectronic devices.

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Section: ■ Results and Discussionmentioning

confidence: 99%

Orientation-Controlled Ultralong Assembly of Janus Particles Induced by Bubble-Driven Instant Quasi-1D Interfaces

Gao

Sun

et al. 2023

J. Am. Chem. Soc.

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“…[95] Alternatively, methods that interfere with the evaporation-driven capillary flow can also disturb the transportation of feeding materials to the contact line. General strategies include inducing additional flows inside the liquid (e.g., Marangoni flow, [96] electro-osmotic flow, substrate vibrations, surface acoustic waves), manipulating interactive forces between the feeding materials (e.g., tuning inter-particle Optical and SEM images of the Ag nanoparticles coffee-ring arrays through capillary assembly in a transparent electrode (a1). Reproduced with permission.…”

Section: Interfacial Force-driven Assemblymentioning

confidence: 99%

Mechanomaterials: A Rational Deployment of Forces and Geometries in Programming Functional Materials

et al. 2021

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finite element analysis (FEA). Reproduced with permission. [227] Copyright 2013, Springer Nature. d) Optical images of a stretchable single-crystal Si p-n diode with wavy microstructures on a PDMS substrate at −11% (top), 0% (middle), and 11% (bottom) applied strains. Reproduced with permission. [228] Copyright 2006, AAAS. e) The impact of microstructural topography on the electrical output of the TENGs device. Reproduced with permission. [246] Copyright 2012, American Chemical Society. f) Stretchable batteries with self-similar serpentine interconnects (upper row) that could power a LED upon the biaxial 300% stretch (lower row). Reproduced with permission. [227] Copyright 2013, Springer Nature. g) Excellent capacitance retention of kirigami-inspired stretchable supercapacitors under the recycling tensile strain of 400%. Reproduced with permission. [83] Copyright 2018, Wiley-VCH.

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“…Marangoni effect, directing flow from regions with low surface tension to high surface tension area, can regulate this capillary flow and generate a recirculating flow, [33] in which temperature and surfactant concentration are the crucial factors to modulate the surface tension gradient to influence the Marangoni effect. [34,35] Marangoni flow is able to initiate an additional mass transfer for solute in the droplet, thus stimulate the assembly behavior, [36,37] contributing to new optical/ electrical properties. [38] Herein, a novel negative spherulite-like concentric assembling behavior of carboxyl modified cellulose nanocrystals (M-CNCs) was obtained, ascribing to synergistic interactions of Marangoni effect and capillary follow during the evaporation of sessile M-CNCs droplet.…”

Section: Introductionmentioning

confidence: 99%

Marangoni Flow Manipulated Concentric Assembly of Cellulose Nanocrystals

et al. 2021

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Tunable assembly of cellulose nanocrystals (CNCs) is important for a variety of emerging applications in optics, sensing, and security. Most exploited assembly and optical property of CNCs are cholesteric assembly and corresponding circular dichroism. However, it still remains challenge to obtain homogenous and high‐resolution cholesteric assembly. Distinct assembly and optical property of CNCs are highly demanded for advanced photonic materials with novel functions. Herein, a facile and programmable approach for assembling CNCs into a novel concentric alignment using capillary flow and Marangoni effect, which is in strike contrast to conventional cholesteric assembly, is demonstrated. The concentric assembly, as quantitatively evidenced by polarized synchrotron radiation Fourier transform infrared imaging, demonstrates Maltese cross optical pattern with good uniformity and high resolution. Furthermore, this Maltese cross can be readily regulated to “on/off” states by temperature. By combining with 3D inkjet technology, a functional binary system composed of “on”/“off” CNCs optical patterns with high spatial resolution, fast printing speed, good repeatability, and precisely controllable optical property is established for information encryption and decryption. This concentric assembly of CNCs and corresponding tunable optical property emerge as a promising candidate for information security, anticounterfeiting technology, and advanced optics.

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Evaporation Induced Spontaneous Micro‐Vortexes through Engineering of the Marangoni Flow

Cited by 18 publications

References 42 publications

Orientation-Controlled Ultralong Assembly of Janus Particles Induced by Bubble-Driven Instant Quasi-1D Interfaces

Orientation-Controlled Ultralong Assembly of Janus Particles Induced by Bubble-Driven Instant Quasi-1D Interfaces

Mechanomaterials: A Rational Deployment of Forces and Geometries in Programming Functional Materials

Marangoni Flow Manipulated Concentric Assembly of Cellulose Nanocrystals

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