Conferences related to Microchannel

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2020 19th IEEE Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (ITherm)

The ITherm Conference series is the leading international venue for scientific and engineering exploration of thermal, thermomechanical, and emerging technology issues associated with electronic devices, packages, and systems.


2020 42nd Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC)

The conference program will consist of plenary lectures, symposia, workshops and invitedsessions of the latest significant findings and developments in all the major fields of biomedical engineering.Submitted papers will be peer reviewed. Accepted high quality papers will be presented in oral and postersessions, will appear in the Conference Proceedings and will be indexed in PubMed/MEDLINE


2020 57th ACM/ESDA/IEEE Design Automation Conference (DAC)

The world's premier EDA and semiconductor design conference and exhibition. DAC features over 60 sessions on design methodologies and EDA tool developments, keynotes, panels, plus the NEW User Track presentations. A diverse worldwide community representing more than 1,000 organizations attends each year, from system designers and architects, logic and circuit designers, validation engineers, CAD managers, senior managers and executives to researchers and academicians from leading universities.

  • 2022 59th ACM/ESDA/IEEE Design Automation Conference (DAC)

    The world's premier EDA and semiconductor design conference and exhibition. DAC features over 60 sessions on design methodologies and EDA tool developments, keynotes, panels, plus the NEW User Track presentations. A diverse worldwide community representing more than 1,000 organizations attends each year, from system designers and architects, logic and circuit designers, validation engineers, CAD managers, senior managers and executives to researchers and academicians from leading universities.

  • 2021 58th ACM/ESDA/IEEE Design Automation Conference (DAC)

    The world's premier EDA and semiconductor design conference and exhibition. DAC features over 60 sessions on design methodologies and EDA tool developments, keynotes, panels, plus the NEW User Track presentations. A diverse worldwide community representing more than 1,000 organizations attends each year, from system designers and architects, logic and circuit designers, validation engineers, CAD managers, senior managers and executives to researchers and academicians from leading universities.

  • 2018 55th ACM/ESDA/IEEE Design Automation Conference (DAC)

    The world's premier EDA and semiconductor design conference and exhibition. DAC features over 60 sessions on design methodologies and EDA tool developments, keynotes, panels, plus the NEW User Track presentations. A diverse worldwide community representing more than 1,000 organizations attends each year, from system designers and architects, logic and circuit designers, validation engineers, CAD managers, senior managers and executives to researchers and academicians from leading universities.

  • 2017 54th ACM/EDAC/IEEE Design Automation Conference (DAC)

    The world's premier EDA and semiconductor design conference and exhibition. DAC features over 60 sessions on design methodologies and EDA tool developments, keynotes, panels, plus the NEW User Track presentations. A diverse worldwide community representing more than 1,000 organizations attends each year, from system designers and architects, logic and circuit designers, validation engineers, CAD managers, senior managers and executives to researchers and academicians from leading universities.

  • 2015 52nd ACM/EDAC/IEEE Design Automation Conference (DAC)

    The world's premier EDA and semiconductor design conference and exhibition. DAC features over 60 sessions on design methodologies and EDA tool developments, keynotes, panels, plus the NEW User Track presentations. A diverse worldwide community representing more than 1,000 organizations attends each year, from system designers and architects, logic and circuit designers, validation engineers, CAD managers, senior managers and executives to researchers and academicians from leading universities.

  • 2014 51st ACM/EDAC/IEEE Design Automation Conference (DAC)

    DAC Description for TMRF The world's premier EDA and semiconductor design conference and exhibition. DAC features over 60 sessions on design methodologies and EDA tool developments, keynotes, panels, plus the NEW User Track presentations. A diverse worldwide community representing more than 1,000 organizations attends each year, from system designers and architects, logic and circuit designers, validation engineers, CAD managers, senior managers and executives to researchers and academicians from leading

  • 2013 50th ACM/EDAC/IEEE Design Automation Conference (DAC)

    The world's premier EDA and semiconductor design conference and exhibition. DAC features over 60 session on design methodologies and EDA tool developments, keynotes, panels, plus User Track presentations. A diverse worldwide community representing more than 1,000 organization attends each year, from system designers and architects, logic and circuit designers, validation engineers, CAD managers, senior managers and executives to researchers and academicians from leading universities.

  • 2012 49th ACM/EDAC/IEEE Design Automation Conference (DAC)

    The Design Automation Conference (DAC) is the premier event for the design of electronic circuits and systems, and for EDA and silicon solutions. DAC features a wide array of technical presentations plus over 200 of the leading electronics design suppliers

  • 2011 48th ACM/EDAC/IEEE Design Automation Conference (DAC)

    The Design Automation Conference is the world s leading technical conference and tradeshow on electronic design and design automation. DAC is where the IC Design and EDA ecosystem learns, networks, and does business.

  • 2010 47th ACM/EDAC/IEEE Design Automation Conference (DAC)

    The Design Automation Conference (DAC) is the premier event for the design of electronic circuits and systems, and for EDA and silicon solutions. DAC features a wide array of technical presentations plus over 200 of the leading electronics design suppliers.

  • 2009 46th ACM/EDAC/IEEE Design Automation Conference (DAC)

    DAC is the premier event for the electronic design community. DAC offers the industry s most prestigious technical conference in combination with the biggest exhibition, bringing together design, design automation and manufacturing market influencers.

  • 2008 45th ACM/EDAC/IEEE Design Automation Conference (DAC)

    The Design Automation Conference (DAC) is the premier event for the design of electronic circuits and systems, and for EDA and silicon solutions. DAC features a wide array of technical presentations plus over 250 of the leading electronics design suppliers.

  • 2007 44th ACM/IEEE Design Automation Conference (DAC)

    The Design Automation Conference (DAC) is the premier Electronic Design Automation (EDA) and silicon solution event. DAC features over 50 technical sessions covering the latest in design methodologies and EDA tool developments and an Exhibition and Demo Suite area with over 250 of the leading EDA, silicon and IP Providers.


2020 IEEE 70th Electronic Components and Technology Conference (ECTC)

ECTC is the premier international conference sponsored by the IEEE Components, Packaging and Manufacturing Society. ECTC paper comprise a wide spectrum of topics, including 3D packaging, electronic components, materials, assembly, interconnections, device and system packaging, optoelectronics, reliability, and simulation.


2020 IEEE International Conference on Industrial Engineering and Engineering Management (IEEM)

All topics related to engineering and technology management, including applicable analytical methods and economical/social/human issues to be considered in making engineering decisions.


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Periodicals related to Microchannel

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Automation Science and Engineering, IEEE Transactions on

The IEEE Transactions on Automation Sciences and Engineering (T-ASE) publishes fundamental papers on Automation, emphasizing scientific results that advance efficiency, quality, productivity, and reliability. T-ASE encourages interdisciplinary approaches from computer science, control systems, electrical engineering, mathematics, mechanical engineering, operations research, and other fields. We welcome results relevant to industries such as agriculture, biotechnology, healthcare, home automation, maintenance, manufacturing, pharmaceuticals, retail, ...


Biomedical Circuits and Systems, IEEE Transactions on

The Transactions on Biomedical Circuits and Systems addresses areas at the crossroads of Circuits and Systems and Life Sciences. The main emphasis is on microelectronic issues in a wide range of applications found in life sciences, physical sciences and engineering. The primary goal of the journal is to bridge the unique scientific and technical activities of the Circuits and Systems ...


Biomedical Engineering, IEEE Transactions on

Broad coverage of concepts and methods of the physical and engineering sciences applied in biology and medicine, ranging from formalized mathematical theory through experimental science and technological development to practical clinical applications.


Components and Packaging Technologies, IEEE Transactions on

Component parts, hybrid microelectronics, materials, packaging techniques, and manufacturing technology.


Computer

Computer, the flagship publication of the IEEE Computer Society, publishes peer-reviewed technical content that covers all aspects of computer science, computer engineering, technology, and applications. Computer is a resource that practitioners, researchers, and managers can rely on to provide timely information about current research developments, trends, best practices, and changes in the profession.


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Most published Xplore authors for Microchannel

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Xplore Articles related to Microchannel

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Flow analysis of microfluidic-based acoustic sensor

2012 4th International Conference on Intelligent and Advanced Systems (ICIAS2012), 2012

This work studied the behaviour of two different material candidates to be used as liquid for a microfluidic-based acoustic sensor. These liquid will be used as an electrolyte where the capacitive sensing mechanism is adopted. ANSYS was used to simulate the laminar flow of these materials inside the device. From the simulation, flow characteristics such as pressure distribution, velocity profile ...


Computational profiling of laser processing glass substrate for microchannel fabrication

International Conference on Computational Problem-Solving, 2010

Investigation of computational profiling of laser processing on glass substrate was carried out to provide numerical solutions to the selection of the laser parameters for microchannel fabrication. Polynomial equations were derived from DadtFit programming to classify and map the randomly scattered paired-data into four different regions, which indicated the four different phenomena induced in laser irradiation process. High order polynomial ...


An Operational Model for Microchannel Plate Devices

IEEE Transactions on Nuclear Science, 1981

The behavior of optical detectors using microchannel plates (MCPs) as electron multipliers is described in terms of the physical parameters of the MCP (channel resistance, channel capacitance, channel wall secondary emission ratio, etc.). Three operating modes are included: (1) DC operation at low light levels, (2) pulse detection operation at high peak currents, and (3) single electron counting with cascaded ...


Controllable in-situ hydrogels membrane formation using microfluidics

2011 6th IEEE International Conference on Nano/Micro Engineered and Molecular Systems, 2011

This paper reports a novel method for the in-situ hydrogel membrane fabrication in a simple PDMS channel. We used two separate solutions of 0.0625 wt% of H<sub>2</sub>O<sub>2</sub> in PBS with the 5.2 wt% of the Tetronic- succinic anhydride-tyramine (Tet-SA-TA), and 0.0625 mg/ml of horseradish peroxidase (HRP) in PBS with the same concentration of Tet-SA-TA. These two solutions were introduced into ...


Transparent, Flexible Microplasma Arrays Fabricated by a Micro Replica Molding Process

2007 IEEE 34th International Conference on Plasma Science (ICOPS), 2007

Summary form only given. The fabrication of flexible, and optically transparent, arrays of microplasma devices having microcavities fabricated by a polymer-based, replica molding process is reported. This process enables arrays of microcavity plasma devices or microchannels with feature sizes as small as ~ 10 mum to be produced inexpensively and precisely over surface areas of at least tens of cm<sup>2</sup>. ...


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Educational Resources on Microchannel

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IEEE.tv Videos

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IEEE-USA E-Books

  • Flow analysis of microfluidic-based acoustic sensor

    This work studied the behaviour of two different material candidates to be used as liquid for a microfluidic-based acoustic sensor. These liquid will be used as an electrolyte where the capacitive sensing mechanism is adopted. ANSYS was used to simulate the laminar flow of these materials inside the device. From the simulation, flow characteristics such as pressure distribution, velocity profile and flow response were obtained. Pressure distribution plot exposed the maximum pressure region where the flow was also maximum. The region was found to occur just at the starting point of the microchannel. Velocity profile indicated the velocity contour plot and flow direction based on the difference in pressure (represent the acoustic pressure) between the sensing membrane and the microchannel end. Finally, from the flow response, the performance of two different liquids was obtained and analysed. In terms of performance response to the applied pressure, Methanol showed a better response with approximately 18 times higher than Propylene Carbonate.

  • Computational profiling of laser processing glass substrate for microchannel fabrication

    Investigation of computational profiling of laser processing on glass substrate was carried out to provide numerical solutions to the selection of the laser parameters for microchannel fabrication. Polynomial equations were derived from DadtFit programming to classify and map the randomly scattered paired-data into four different regions, which indicated the four different phenomena induced in laser irradiation process. High order polynomial degree would robustly profile the varied laser parameter settings for glass strip peeling and thus precisely predict the channel fabrication. A high order polynomial approximation in power of 5 and a mathematical model of Taylor Series Expansion were used to profile the specific regions in the laser processing and to guide the selection of laser parameters for microchannel fabrication with high order of accuracy.

  • An Operational Model for Microchannel Plate Devices

    The behavior of optical detectors using microchannel plates (MCPs) as electron multipliers is described in terms of the physical parameters of the MCP (channel resistance, channel capacitance, channel wall secondary emission ratio, etc.). Three operating modes are included: (1) DC operation at low light levels, (2) pulse detection operation at high peak currents, and (3) single electron counting with cascaded V-plate and Z-plate MCPs.

  • Controllable in-situ hydrogels membrane formation using microfluidics

    This paper reports a novel method for the in-situ hydrogel membrane fabrication in a simple PDMS channel. We used two separate solutions of 0.0625 wt% of H<sub>2</sub>O<sub>2</sub> in PBS with the 5.2 wt% of the Tetronic- succinic anhydride-tyramine (Tet-SA-TA), and 0.0625 mg/ml of horseradish peroxidase (HRP) in PBS with the same concentration of Tet-SA-TA. These two solutions were introduced into the typical microfluidic channel and the mixing of these solutions spontaneously formed the in-situ crosslinked hydrogels membrane in the microfluidic channel. The width of the membrane can be controlled quantitatively by adjusting gelation time and the velocity of microfluidics. Moreover, by using the formed inner-channel membrane, the permeation of chemical molecules through the membrane was observed and its quantitative value was analyzed with multiphysics modeling. The parallel hydrogel membranes were also formed using a time-dependent procedure, and, in addition, this separated channel by the hydrogel membranes was applied for the generation of stable concentration gradients into the microchannel. These results can be used to realize the complicated diffusive 3D structure, such as biomimetic blood vessels.

  • Transparent, Flexible Microplasma Arrays Fabricated by a Micro Replica Molding Process

    Summary form only given. The fabrication of flexible, and optically transparent, arrays of microplasma devices having microcavities fabricated by a polymer-based, replica molding process is reported. This process enables arrays of microcavity plasma devices or microchannels with feature sizes as small as ~ 10 mum to be produced inexpensively and precisely over surface areas of at least tens of cm<sup>2</sup>. With the incorporation of a thin dielectric barrier coating within and around the microcavity, stable glow discharges are obtained without any degradation of the device or outgassing from surrounding polymeric materials. Devices having transparent electrodes and substrates (including glass and flexible plastic) have been operated successfully at rare gas pressures up to 800 Torr. Individual microplasma pixels with cross-sectional dimensions of 200 times 200 mum<sup>2</sup> and 50 times 50 mum<sup>2</sup>, as well as plasma channels having widths of 20 mum and 150 mum and aspect ratios as large as 10<sup>4</sup>:1, have been fabricated and tested. Hermetically sealed microplasma arrays with various microcavity shapes are successfully demonstrated for applications such as transparent displays, micro-reactors, and micro-fluidic cell detectors. Representative voltage-current data for these structures and lifetime measurements for a series of arrays are presented.

  • Microfluidic channels fabricated using a lithography-free method

    A lithography-free microchannel fabrication process with controlled pattern is demonstrated via the combination of Near Field Electrospinning (NFES) and molding of polydimethysiloxane (PDMS). Electrospun polymer fibers (1-10μm in width, 0.5-4μm in height) were patterned onto a silicon substrate to serve as the template. Microfluidic devices with parallel and grid-pattern microchannels were created and tested. By adjusting the electrospinning parameters, control of microchannel size was achieved. This methodology offers an effective, yet simple alternative way to lithography-based techniques for fabricating on-chip fluidic networks in MEMS, IC and biological fields.

  • Dynamic behaviors of microdroplets in convergent microchannels under the effect of dielectrophoresis

    The convergent microchannel is widely applied to connect microchannels with different sizes to avoid sharp changes of the flow field. It is important to investigate the dynamic properties in the convergent microchannel to promote the development of microdevices. Numerical simulation method is used to study the dynamic behaviors of microdroplets in a convergent microchannel. The microchannel is embedded with electrodes and alternating current (AC) is applied on the electrodes. Under the effect of nonuniform electric field, dielectrophoresis force is defined as the driving force to manipulate the microdroplets in the convergent microchannel. In this study, the surface tension is considered in the Navier-Stokes equations. The influence of dielectric constant and magnitude of voltage on the dynamic behaviors of microdroplets are analyzed in details. According to the results, the velocity of the microdroplet is proportional to the dielectric constant and voltage in the convergent microchannel. This can provide an efficient method to control the droplet merging process during the biological or chemical experiments.

  • The transport and deformation of blood cells in micro-channel

    The transport and deformability of erythrocyte (RBC) and leukocyte (WBC) play great roles in both microcirculation in vivo and blood cell diagnosis. This paper used the microfabricated chips to study the transport and deformation of blood cells in typical sized rectangular microchannels. The test microchannel chips were fabricated by standard photolithography, ICP etching, and anode bonding with silicon wafers and glass covers. Flow field was magnified by an upright microscopy and images were captured by a high speed CCD camera. With a special designed image processing software, the images were filtered, enhanced, and edge detected for different purposes. The experiment results showed that the move and distribution of WBC in microchannel were significantly influenced by flow velocity, hematocrit, and other factors. The RBC occupy the center of channel and deform themselves to pass the narrow section of channel, in contrast to leukocyte, which deformed slightly and blocked the narrow section frequently. The measured results depicted that the deformability of blood cells subjected to many factors. This will be helpful in the design of blood cell separation devices and Keywords-

  • Lab-on-a-chip devices for cell biology studies

    Microtechnology offers the attractive possibility of modulating the microenvironment of single cells and, for the same price, obtain data at high throughput for a small cost. Microfluidic or "Lab on a Chip" devices, in particular, promise to play a key role for several reasons: 1) the dimensions of microchannels can be comparable to or smaller than a single cell; 2) the unique physicochemical behavior of liquids confined to microenvironments enables new strategies for delivering compounds to cells on a subcellular level; 3) the devices consume small quantities of precious/hazardous reagents (thus reducing cost of operation/disposal); and 4) the can be mass-produced in low-cost, portable units. Not surprisingly, in recent years there has been an eruption of microfluidic implementations of a variety of traditional bioanalysis techniques. I will review the latest efforts of our laboratory in the development of cell-based microdevices for cell biology studies, such as neuromuscular synaptogenesis, axon guidance, and chemotaxis.

  • Atomic layer deposition of optical coatings inside microchannels

    An air wedge was created, between 2 square wafers of silicon approximately 7 cm on a side, with the air gap varying in thickness linearly from 0-1650 mum over 7 cm. A Fabry-Perot optical cavity composed of an atomic layer deposition (ALD) Al<sub>2</sub>O<sub>3</sub>/HfO<sub>2</sub> multilayer was deposited inside the wedge, and the measured resonant wavelength only shifted by -10.3% over a distance of 6 cm along the gas flow direction and over a 118-1533 mum range of gap thickness.The first experiments to test optical coatings inside microchannels were performed using 12 cm long glass capillary tubes with an interior dimension defined by a square 500 mum opening, a 240:1 aspect ratio.



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