Size-Tunable Assembly of Gold Nanoparticles Using Competitive AC Electrokinetics

Goel, Meenal; Singh, Akshay Kumar; Bhola, Ashwin; Gupta, Shalini

doi:10.1021/acs.langmuir.8b03963

Cited by 4 publications

(11 citation statements)

References 53 publications

(71 reference statements)

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“…The solution has been proposed with AC mode electrokinetic devices. 24,25 Luft, Kuhl, and Richter as early as 1977 reported an alternate solution for the gassing EOPs using consumable Ag/AgCl electrodes. They proposed a subcutaneous insulin delivery system with Ag/AgCl electrodes and ion-exchange membranes with the concept of indirect pumping to avoid the fouling of the ion-exchange membrane, 26 but very small electroosmotic flux limited the intended applications.…”

Section: ■ Introductionmentioning

confidence: 99%

“…The device fabricated from thin metal electrodes integrated within microfluidic channels at the substrate and cover plate interface show linear dependence of flow velocity with the applied DC voltage, but they have serious concern of gas bubbles generated from electrolysis products. , These generated gas bubbles must be removed or recombined from the system. The solution has been proposed with AC mode electrokinetic devices. , Luft, Kuhl, and Richter as early as 1977 reported an alternate solution for the gassing EOPs using consumable Ag/AgCl electrodes. They proposed a subcutaneous insulin delivery system with Ag/AgCl electrodes and ion-exchange membranes with the concept of indirect pumping to avoid the fouling of the ion-exchange membrane, but very small electroosmotic flux limited the intended applications.…”

Section: Introductionmentioning

confidence: 99%

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Low-Voltage Nongassing Electroosmotic Pump and Infusion Device with Polyoxometalate-Encapsulated Carbon Nanotubes

et al. 2021

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A low-voltage nongassing electroosmotic pump was assembled by sandwiching a silica frit between two carbon paper electrodes that were dip-coated with a paste consisting of phosphomolybdic acid/phosphotungstic acid (PMA/PTA)-encapsulated multiwalled carbon nanotubes (MWCNTs) and Nafion. The PMA/PTA encapsulation was a combined effect of their thermomigration and nanocapillary action in MWCNTs. The encapsulated MWCNTs retained desirable redox and charge transfer characteristics of PMA/PTA. The stable voltammogram in 1 M H2SO4 solution exhibited 77% charge retention. A total of three different possible pump configurations, namely, PUMP-I = PMA//SiO2//PMA, PUMP-II = PTA//SiO2//PTA, and PUMP-III = PMA//SiO2//PTA were put together. They are in the sequence of the anode, silica frit, and cathode. All pumps showed a linear dependence on the flow rate with a minimum operating voltage of 1 V, which is well below the thermodynamic potential of water splitting. PUMP-I provided an electroosmotic flux of 43.57 μLmin–1 V–1 cm–2 that matched the requirement of an infusion device like an insulin pump. The device was fabricated and its applicability has been demonstrated by delivering ∼1.8 mL of water at a 10 ± 2 μLmin–1 flow rate at 2 V constant applied voltage over a period of 3 h. Such a wearable device can be programed to deliver model insulin or pain medication drugs for chronic diseases.

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Section: ■ Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Low-Voltage Nongassing Electroosmotic Pump and Infusion Device with Polyoxometalate-Encapsulated Carbon Nanotubes

et al. 2021

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“…However, systematic investigation in these aspects is currently lacking. Although more than one electrokinetic phenomenon is considered in some articles, ,,,, systematically addressing the effect of all the electrokinetic phenomena on the particle assembly is generally lacking. In addition, local Joule heating caused by the electric field gives rise to an additional electrokinetic phenomenon in the form of electrothermal flow acting on the particles. , Establishing equations combining all the electrokinetic phenomena or setting up criteria for judging which electrokinetic phenomenon is dominant is a fertile field worthy of in-depth studies.…”

Section: Electric Field-directed Assemblymentioning

confidence: 99%

“…In reality, each effect mentioned above contributes to the motion of the nanoparticles. Although more than one effect is employed or considered in some articles, ,,, systematically addressing the influence of all the effects on the particle assembly is generally lacking. The significance of each force under various assembly parameters, such as electric field strength, frequency, particle size, dielectric constant and conductivity of the nanoparticles and the medium, solvent type, pH, electrolyte type and concentration, and pattern geometry, is a fertile field worthy of in-depth study.…”

Section: Fluidic Flow-directed Assemblymentioning

confidence: 99%

“…Therefore, a DC pulse of 12 V was applied for 2 s to fix the assembled TBPe particles on the ITO electrode. 234 Besides causing nonuniformity in current density, Goel et al 235 showed that the electrode patterning can also lead to nonuniformity of the electric field. This arises due to the concentrated field effect and manifests as a tangential electric field component and a localized high electric field at the edge of the patterns.…”

Section: Electric Field-directed Assemblymentioning

confidence: 99%

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Directed Assembly of Nanomaterials for Making Nanoscale Devices and Structures: Mechanisms and Applications

2022

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Nanofabrication has been utilized to manufacture one-, two-, and threedimensional functional nanostructures for applications such as electronics, sensors, and photonic devices. Although conventional silicon-based nanofabrication (top-down approach) has developed into a technique with extremely high precision and integration density, nanofabrication based on directed assembly (bottom-up approach) is attracting more interest recently owing to its low cost and the advantages of additive manufacturing. Directed assembly is a process that utilizes external fields to directly interact with nanoelements (nanoparticles, 2D nanomaterials, nanotubes, nanowires, etc.) and drive the nanoelements to site-selectively assemble in patterned areas on substrates to form functional structures. Directed assembly processes can be divided into four different categories depending on the external fields: electric field-directed assembly, fluidic flowdirected assembly, magnetic field-directed assembly, and optical field-directed assembly. In this review, we summarize recent progress utilizing these four processes and address how these directed assembly processes harness the external fields, the underlying mechanism of how the external fields interact with the nanoelements, and the advantages and drawbacks of utilizing each method. Finally, we discuss applications made using directed assembly and provide a perspective on the future developments and challenges.

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Electropatterning—Contemporary developments for selective particle arrangements employing electrokinetics

et al. 2023

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The selective positioning and arrangement of distinct types of multiscale particles can be used in numerous applications in microfluidics, including integrated circuits, sensors and biochips. Electrokinetic (EK) techniques offer an extensive range of options for label‐free manipulation and patterning of colloidal particles by exploiting the intrinsic electrical properties of the target of interest. EK‐based techniques have been widely implemented in many recent studies, and various methodologies and microfluidic device designs have been developed to achieve patterning two‐ and three‐dimensional (3D) patterned structures. This review provides an overview of the progress in electropatterning research during the last 5 years in the microfluidics arena. This article discusses the advances in the electropatterning of colloids, droplets, synthetic particles, cells, and gels. Each subsection analyzes the manipulation of the particles of interest via EK techniques such as electrophoresis and dielectrophoresis. The conclusions summarize recent advances and provide an outlook on the future of electropatterning in various fields of application, especially those with 3D arrangements as their end goal.

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Size-Tunable Assembly of Gold Nanoparticles Using Competitive AC Electrokinetics

Cited by 4 publications

References 53 publications

Low-Voltage Nongassing Electroosmotic Pump and Infusion Device with Polyoxometalate-Encapsulated Carbon Nanotubes

Low-Voltage Nongassing Electroosmotic Pump and Infusion Device with Polyoxometalate-Encapsulated Carbon Nanotubes

Directed Assembly of Nanomaterials for Making Nanoscale Devices and Structures: Mechanisms and Applications

Electropatterning—Contemporary developments for selective particle arrangements employing electrokinetics

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