A Digital Microfluidic Approach to Proteomic Sample Processing

Luk, Vivienne N.; Wheeler, Aaron R.

doi:10.1021/ac900522a

Cited by 102 publications

(113 citation statements)

References 171 publications

(285 reference statements)

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“…Demonstrated examples for specific applications include variable-focus liquid lenses [15], optical displays [16,17], mirrors [18], electrical [19] and thermal [20] switches, a tensiometer [21], rheometers [22,23], and many digital (droplet) microfluidic devices for bioanalysis [5,7,8]. The development of these technologies in the last decade has been spurred by the ability to construct sub-millimeter scale components using micro-electromechanical systems (MEMS) manufacturing methods.…”

mentioning

confidence: 99%

Droplet Actuation by Electrowetting-on-Dielectric (EWOD): A Review

Nelson

Kim

2012

Journal of Adhesion Science and Technology

365

209

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This paper reviews publications that have fortified our understanding of the electrowetting-on-dielectric (EWOD) actuation mechanism. Over the last decade, growing interest in EWOD has led to a wide range of scientific and technological investigations motivated by its applicability in microfluidics, especially for droplet-based optical and lab-on-achip systems. At this point in time, we believe that it is helpful to summarize the observations, insights, and modeling techniques that have led to the current picture showing how forces act on liquid droplets and how droplets respond in EWOD microfluidic devices. We discuss the basic physics of EWOD and explain the mechanical response of a droplet using free-body diagrams. It is our hope that this review will inspire new research approaches and help design useful devices. * Corresponding Author: cjkim@ucla.edu EWOD. This summary focuses on the fundamentals of how droplets move by EWOD actuation rather than device fabrication or applications of the technology.

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confidence: 99%

Droplet Actuation by Electrowetting-on-Dielectric (EWOD): A Review

Nelson

Kim

2012

Journal of Adhesion Science and Technology

365

209

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“…3,13,[15][16][17][18] Comparing the studies presented here to those in Table I, it is clear that introducing feedback control 13,16 and off-chip pressure sources 16,18 greatly affects droplet dispensing. Most previous work makes use of these and other "aids to dispensing" (such as walls around the reservoir 17,18 and double reservoir electrodes to increase backpressure 16 ).…”

Section: Discussionmentioning

confidence: 99%

“…Each droplet can be individually controlled in both space and time and used as a miniaturised reaction vessel. The versatility of digital microfluidic technology is evident from the breadth of reported application areas, which range from proteomics 3 and point-of-care diagnostics 4 to chemical synthesis, 5 textiles with electrowetting capabilities, 6 variable focus microlenses, 7 and display technologies. 8 This breadth also demonstrates the adaptability of DMF devices, since they can be configured to suit a given application.…”

Section: Introductionmentioning

confidence: 99%

“…In particular, the geometric layout of the electrodes used for droplet manipulation creates an environment eminently suited for assay-based applications 9 and for the performance of sequential sample preparation steps. 3,10 To function as an alternative to macroscale laboratory techniques, DMF devices must be able to perform a basic set of common operations. This "droplet toolkit" consists of droplet dispensing (creating daughter droplets from a larger "reservoir" drop), droplet movement, droplet merging, and droplet splitting ( Figure 2).…”

Section: Introductionmentioning

confidence: 99%

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Droplet dispensing in digital microfluidic devices: Assessment of long-term reproducibility

et al. 2012

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We report an in-depth study of the long-term reproducibility and reliability of droplet dispensing in digital microfluidic devices (DMF). This involved dispensing droplets from a reservoir, measuring the volume of both the droplet and the reservoir droplet and then returning the daughter droplet to the original reservoir. The repetition of this process over the course of several hundred iterations offers, for the first time, a long-term view of droplet dispensing in DMF devices. Results indicate that the ratio between the spacer thickness and the electrode size influences the reliability of droplet dispensing. In addition, when the separation between the plates is large, the volume of the reservoir greatly affects the reproducibility in the volume of the dispensed droplets, creating "reliability regimes." We conclude that droplet dispensing exhibits superior reliability as interplate device spacing is decreased, and the daughter droplet volume is most consistent when the reservoir volume matches that of the reservoir electrode.

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“…In addition, direct manipulation of discrete droplets enables fabrication and operation of highly automated microfluidics systems with more flexibility and higher efficiency [6][7][8][9][10][11][12]. Due to these unique advantages, EWOD digital microfluidics has been used for tremendous applications such as medical [13][14][15][16][17][18][19], display [20,21], optics [22,23], and cooling [24,25]. In addition, there are many recent EWOD studies on engineering applications such as optofluidics and solar energy [26,27].…”

Section: Introductionmentioning

confidence: 99%

Accurate, consistent, and fast droplet splitting and dispensing in electrowetting on dielectric digital microfluidics

Nikapitiya

Nahar

Moon

2017

Micro and Nano Syst Lett

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This letter reports two novel electrode design considerations to satisfy two very important aspects of EWOD operation-(1) Highly consistent volume of generated droplets and (2) Highly improved accuracy in the generated droplet volume. Considering the design principles investigated two novel designs were proposed; L-junction electrode design to offer high throughput droplet generation and Y-junction electrode design to split a droplet very fast while maintaining equal volume of each part. Devices of novel designs were fabricated and tested, and the results are compared with those of conventional approach. It is demonstrated that inaccuracy and inconsistency of droplet volume dispensed in the device with novel electrode designs are as low as 0.17 and 0.10%, respectively, while those of conventional approach are 25 and 0.76%, respectively. The dispensing frequency is enhanced from 4 to 9 Hz by using the novel design.

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A Digital Microfluidic Approach to Proteomic Sample Processing

Cited by 102 publications

References 171 publications

Droplet Actuation by Electrowetting-on-Dielectric (EWOD): A Review

Droplet Actuation by Electrowetting-on-Dielectric (EWOD): A Review

Droplet dispensing in digital microfluidic devices: Assessment of long-term reproducibility

Accurate, consistent, and fast droplet splitting and dispensing in electrowetting on dielectric digital microfluidics

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