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. Coordinating Multiple Droplets in Planar Array Digital Microfluidic Systems Griffith and Akella The International Journal of Robotics Research.

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. Rapid droplet mixers for digital microfluidic systems.

. pyp@ee.duke.edu The mixing of analytes and reagents for a biological or chemical lab-on-a-chip is an important, yet difficult, microfluidic operation.

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. 2006 Forthcoming: Other Years: Other Issues: Search this issue: Article Information Microfluidics-Based Biochips: Technology Issues, Implementation Platforms, and Design-Automation Challenges Su, F.; Chakrabarty, K.; Fair, R.B.

. Page(s): 211- 223 Digital Object Identifier 10.1109/TCAD.2005.855956 | Full Text: (776 KB) Modeling and Simulation of Electrified Droplets and Its Application to Computer-Aided Design of Digital Microfluidics Zeng, J.

. Page(s): 321- 333 Digital Object Identifier 10.1109/TCAD.2005.855931 | Full Text: (456 KB) Modeling and Controlling Parallel Tasks in Droplet-Based Microfluidic Systems Bohringer, K.F.

. Page(s): 334- 344 Digital Object Identifier 10.1109/TCAD.2005.855958 | Full Text: (600 KB) Performance Characterization of a Reconfigurable Planar-Array Digital Microfluidic System Griffith, E.J.; Akella, S.; Goldberg, M.K.

. Page(s): 358- 377 Digital Object Identifier 10.1109/TCAD.2005.855960 | Full Text: (1120 KB) Microfluidic Injector Models Based on Artificial Neural Networks Magargle, R.; Hoburg, J.F.; Mukherjee, T.

Ph.D. Forum 2005 - Synthesis, Testing, and Reconfiguration Techniques for Digital Microfluidic Biochips

. Forum 2005 START ConferenceManager Synthesis, Testing, and Reconfiguration Techniques for Digital Microfluidic Biochips Fei Su Anaheim CA, USA, June 2005 Abstract A new generation of biochips, referred to in the literature as digital microfluidic biochips, improves upon continuous-flow systems by providing dynamic reconfigurability and system scalability.

. These features facilitate the concurrent execution of several large-scale bioassays on a microfluidics platform.

. Unfortunately, current full-custom design techniques for digital microfluidic biochips may not scale well for large designs, and they do not easily handle yield/reliability issues.

. In this thesis, we propose a design automation framework that addresses key issues in the synthesis (architectural-level synthesis and physical design automation), testing (defect analysis, test planning, design-for-reliability, and yield enhancement) and reconfiguration of digital microfluidic biochips.

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Search My Settings Subjects General Authors Sales & Services Electronic Products T&F Informa Description -> -> Digital Microfluidic Biochips: Synthesis, Testing, and Reconfiguration Techniques Krishnendu Chakrabarty Duke University, Durham, North Carolina, USA Fei Su Intel Corporation, Folsom, California, USA List Price: £74.99 Cat.

. The authors describe problems of test planning and test resource optimization and also examine reconfiguration-based techniques using redundancy and degradation that are expected to enhance the reliability of digital microfluidic biochips.

. They outline a comprehensive design and testing methodology for digital microfluidic biochips that is ideal for students and researchers.

. Lee The applications and use of inkjet-like microfluidic drop ejectors have grown rapidly in many fields, including biotechnology, drug discovery, combinatorial chemistry, and microfabrication.

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. - ¾Æ ·¡ - ÃÊÃ» ¼¼¹Ì³ª Á¦ ¸ñ Reconfigurable Digital Microfluidic Circuits ° »ç Prof.

. Chang-Jin "CJ" Kim (UCLA ) ½Ã °£ 2002³â 7¿ù 18ÀÏ(¸ñ) ¿ÀÈÄ 4:30 Àå ¼Ò ¼¿ï´ëÇÐ±³ ½Å°øÇÐ°ü 301µ¿ 1020È£(10Ãþ ¼¼¹Ì³ª½Ç) Abstract We present the concept of digital microfluidics a new paradigm in pumping and manipulating liquids and the technologies being developed to implement the concept in microdevices.

Kurzfassung: Droplet-Based "Digital" Microfluidic Systems: Computer-Aided Design, Testing, and Applications

. Juli 2004 um 16.30 Uhr im H3 Droplet-Based "Digital" Microfluidic Systems: Computer-Aided Design, Testing, and Applications Krishnendu Chakrabarty (Associate Professor), Duke University, USA, auf Einladung von Prof.

. Anheier Kurzfassung: Composite microsystems that incorporate microelectromechanical and microfluidic systems are fast emerging as the next generation of system-on-chip (SOC) designs.

. Microfluidics not only offers size reduction, e.g., in small medical implants and minimal invasive surgery, but it also reduces power consumption.

. In this talk, I will first present an overview of the droplet-based digital microfluidics technology developed at Duke University.

. I will describe a system design methodology that attempts to apply classical architectural-level synthesis techniques to the design of digital microfluidics-based biochips.

. Next, I will present a concurrent testing methodology for detecting catastrophic faults in droplet-based microfluidic systems and address the related problems of test planning and resource optimization.

Faculty Profile

. Two paradigms have emerged for lab-on-a-chip: channel and digital microfluidics.

. Channel microfluidics relies on enclosed, interconnecting, micron-dimension channels.

. Digital microfluidics enables transport of discrete droplets of fluid across the surface of an array of electrodes.

. Channel and digital microfluidics offer unique and in many cases complementary advantages.

. Channel microfluidic devices are well-suited for carrying out fast, high resolution separations.

. Digital microfluidic devices enable facile, simultaneous control of reagents for array-based bioassays.

. We are developing hybrid methods that rely on the unique advantages of channel and digital microfluidics for high throughput bioanalytical applications.

. We are developing instruments and methods, based on channel and digital microfluidics for integrated processing and MS-based analysis of proteins in crude biofluids (saliva, serum, cell lysate, etc.).

. We are developing instruments and methods based on channel and digital microfluidics capable of conducting high throughput phenotypic screening on disposable devices with no moving parts and minimal reagent use.

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Contact: Prof

. Mingming Wu Email: mw272@cornell.edu Phone: 255-0390 Office: 284C Grumman Hall Mixing problem in merging droplets The development of digital microfluidic device has attracted much attention due to its promising applications in biology and biotechnology.

. In digital microfluidic platform, small volume ( nl to a few ml) of fluids are manipulated in the form of droplets on a flat substrate via external forces.

. This project addresses one of the fundamental questions in digital microfluidic device -- how well do the contents of two droplets mix when they merge? The prototypes of the device have been fabricated, where droplets of controllable sizes can be manipulated on a substrate either via electrowetting force or pressure driven force.

Informatik-Kolloquium Sommersemester 04

. Krishnendu Chakrabarty: Droplet-Based "Digital" Microfluidic Systems: Computer-Aided Design, Testing, and Applications Composite microsystems that incorporate microelectromechanical and microfluidic systems are fast emerging as the next generation of system-on-chip (SOC) designs.

. Microfluidics not only offers size reduction, e.g., in small medical implants and minimal-invasive surgery, but it also reduces power consumption.

. In this talk, I will first present an overview of the droplet-based digital microfluidics technology developed at Duke University.

. I will describe a system design methodology that attempts to apply classical architectural-level synthesis techniques to the design of digital microfluidics-based biochips.

. Finally, time permitting, I will describe our recent work on chip cooling using droplet-based microfluidics.