Download or read book Laser Assisted Fabrication of Polymer Based Microfluidic Devices written by Soni Chandrasekar and published by . This book was released on 2015 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Fabrication of Polymer Based Microfluidic Devices for Chemical and Biological Analysis written by Bo Shen and published by . This book was released on 2016 with total page 104 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Fabrication and Application of Polymer Based Microfluidic Devices written by Myra T. Koesdjojo and published by . This book was released on 2009 with total page 206 pages. Available in PDF, EPUB and Kindle. Book excerpt: The concept of reducing laboratory operations in scale such that they fit on a microfluidic chip has been met with great enthusiasm. Lab-on-a-chip devices promise to be cost effective to operate due to reduced reagent consumption, have the potential to offer shorter analysis times due to their short path lengths, and may be useful in biological applications in that they are inherently compact and inexpensive to build, thus they may be disposable. In this work, a series of fabrication techniques for the production of polymer-based microfluidic devices are explored. In the first component of this research effort an aluminum mold was fabricated using CNC machining to create the desired microchannel design, followed by a two-stage embossing process, involving two polymer substrates with different glass transition temperatures (Tg), polyetherimide (PEI; Tg~216oC) and poly(methyl methacrylate) (PMMA; Tg~105oC). Successful feature transfer from aluminum mold to PMMA substrates was achieved reproducibly employing this method. With this approach, the expensive process of producing the aluminum master need be performed only once. Electrophoretic separations of fluorescent dyes, rhodamine B and fluorescein were performed on the PMMA microchips, with peak efficiencies of 55500 and 66300 theoretical plates/meter, respectively. The next stage of work explored a new bonding method by solvent welding using ice as sacrificial layer to prevent channel deformation. Water is one of the most compatible sacrificial media; it is readily available, non toxic, has a low evaporation rate, a high freezing point relative to the bonding solvent, and a low melting point which makes it easier to flush out after sealing, as compared to using other sacrificial media (paraffin wax or low-melting temperature alloys). The bonded PMMA microchips could withstand an internal pressure of > 2000 psi, more than 17 times stronger than the thermally bonded chips. In the final stage of work a new bonding technique was developed that readily produces complete microfluidic chips, without the need of a sacrificial layer to form complete multilayer microfluidic devices. Also developed was the use of an SU-8 master in the two-stage embossing process to create microchannels. This approach is faster, simpler and less costly than CNC machining. The fabrication technique was utilized to build a microfluidic liquid chromatography (LC) system that was shown to generate high separation efficiencies of 10,000- 45,000 plates/m. In addition, a passive micromixer containing high-density microfeatures was fabricated to perform a glycine assay using O-phthaldialdehyde. With glycine concentrations ranging from 0.0 to 2.6 [mu]M, a linear calibration plot (R2 = 0.9982) was obtained with a detection limit of 0.032 [mu]M.

Download or read book Microfluidic Device Prototyping Via Laser Processing of Glass and Polymer Materials written by Aymen Ben Azouz and published by . This book was released on 2014 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: In this thesis, three different processes for the fabrication of microchannels in three different base materials were experimentally and numerically modelled in detail in order to understand the effects of processing conditions on process fabrication capabilities. CO2 and Nd:YAG laser processing systems as well as a xurography technique were employed in this work for the development of microfluidic channels. The effects of CO2 laser processing on the process of directly writing microchannels on surface of four different types of glass: soda lime, fused silica, borosilicate and quartz were studied. Mathematical models were developed to relate the process input parameters to the dimensions of the microchannels. The effect of laser processing on the optical transmission capabilities of the glass was also assessed. A novel method, using Nd:YAG laser system, was employed for the fabrication of internal microchannels inside polymeric materials. Microchannels up to three millimetres long were successfully created inside a polycarbonate within a single laser processing step. Mathematical models were developed to express the relationship between laser processing input parameters and the width of these internal microchannels. The Nd:YAG processing parameters for laser welding of polycarbonate sheets were also determined. A new rapid low-cost prototyping method for the fabrication of multilayer microfluidic devices from cyclic olefin copolymer (COC) films was developed. CO2 laser cutting and xurography techniques were employed for the fabrication of the microfluidic features, followed by multilayer lamination via cyclohexane vapour exposure. Process parameters were optimised including solvent exposure time. Functional UV-transparent microfluidic mixing devices were demonstrated which included internally bound polymer monolithic columns within the microfluidic channels. There is a growing interest to use technologies which are in this thesis, the three different developed processes for the fabrication of microchannels in three different base materials provides the basis for achieving higher dimensional accuracies and novel designs within lab-on-a-chip microfluidic sensing devices.

Download or read book Laser Based Nano Fabrication and Nano Lithography written by Koji Sugioka and published by MDPI. This book was released on 2018-12-07 with total page 155 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book is a printed edition of the Special Issue "Laser-Based Nano Fabrication and Nano Lithography" that was published in Nanomaterials

Download or read book Microfluidics and Microfabrication written by Suman Chakraborty and published by Springer Science & Business Media. This book was released on 2009-12-15 with total page 345 pages. Available in PDF, EPUB and Kindle. Book excerpt: Microfluidics and Microfabrication discusses the interconnect between microfluidics, microfabrication and the life sciences. Specifically, this includes fundamental aspects of fluid mechanics in micro-scale and nano-scale confinements and microfabrication. Material is also presented discussing micro-textured engineered surfaces, high-performance AFM probe-based, micro-grooving processes, fabrication with metals and polymers in bio-micromanipulation and microfluidic applications. Editor Suman Chakraborty brings together leading minds in both fields who also: Cover the fundamentals of microfluidics in a manner accessible to multi-disciplinary researchers, with a balance of mathematical details and physical principles Discuss the explicit interconnection between microfluiodics and microfabrication from an application perspective Detail the amalgamation of microfluidics with logic circuits and applications in micro-electronics Microfluidics and Microfabrication is an ideal book for researchers, engineers and senior-level graduate students interested in learning more about the two fields.

Download or read book Microfluidics for Advanced Functional Polymeric Materials written by Liang-Yin Chu and published by John Wiley & Sons. This book was released on 2017-03-13 with total page 336 pages. Available in PDF, EPUB and Kindle. Book excerpt: A comprehensive and systematic treatment of our current understanding of the microfluidic technique and its advantages in the controllable fabrication of advanced functional polymeric materials. Introducing and summarizing recent advances and achievements in the field, the authors cover the design and fabrication of microfluidic devices, the fundamentals and strategies for controllable microfluidic generation of multiphase liquid systems, and the use of these liquid systems with an elaborate combination of their structures and compositions for generating novel polymer materials, such as microcapsules, microfibers, valves, and membranes. Clear diagrams and illustrations throughout the text make the relevant theory and technologies more readily accessible. The result is a specialist reference for materials scientists, organic, polymer and physical chemists, and chemical engineers.

Download or read book MEMS NEMS Sensors written by Goutam Koley and published by MDPI. This book was released on 2019-11-20 with total page 242 pages. Available in PDF, EPUB and Kindle. Book excerpt: Due to the ever-expanding applications of micro/nano-electromechanical systems (NEMS/MEMS) as sensors and actuators, interest in their development has rapidly expanded over the past decade. Encompassing various excitation and readout schemes, the MEMS/NEMS devices transduce physical parameter changes, such as temperature, mass or stress, caused by changes in desired measurands, to electrical signals that can be further processed. Some common examples of NEMS/MEMS sensors include pressure sensors, accelerometers, magnetic field sensors, microphones, radiation sensors, and particulate matter sensors.

Download or read book Novel Polymer based Microfluidic Devices written by Chong Hu and published by . This book was released on 2018 with total page 142 pages. Available in PDF, EPUB and Kindle. Book excerpt: In the first part, we proposed an "inside-out" fabrication strategy using a copper scaffold as the sacrificial template to create freestanding 3D microvascular structures containing branched tubular networks with alginate hydrogel. The microvascular structures produced with this method are strong enough to allow handling, biocompatible for cell culture, appropriately porous to allow diffusion of small molecules, while sufficiently dense to prevent blocking of channels when embedded in various types of gels. In addition, other materials and biomolecules could be pre-loaded in our hydrogel tubular networks by mixing them with alginate solution, and the thickness of tubule wall is tunable. Compared to other potential strategies of fabricating free-standing gel channel networks, our method is parallel processing using an industrially mass-producible template, making our method rapid, low-cost and scalable. We demonstrated cell culture in a nutrition gradient based on a microfluidic diffusion device made of agar, a hydrogel traditionally hard to microfabricate, by embedding the synthesized tubules into the agar gel. In this way, the freestanding hydrogel vascular network we produced is a universal functional unit that can be integrated with other gel-based devices to build up the supporting matrix for 3D cell culture outside the hydrogel vascular structure; allowing great convenience and flexibility 3D culture. The method is readily implementable to have broad applications in biomedicine and biology, such as vascular tissue regeneration, drug discovery, and delivery system in 3D culture.

Download or read book Micro Nanofluidics and Lab on Chip Based Emerging Technologies for Biomedical and Translational Research Applications Part A written by and published by Academic Press. This book was released on 2022-01-13 with total page 328 pages. Available in PDF, EPUB and Kindle. Book excerpt: Micro/Nanofluidics and Lab-on-Chip Based Emerging Technologies for Biomedical and Translational Research Applications, Volume 185, Part A represents the collation of chapters written by eminent scientists worldwide. Chapters in this updated release include An introduction to microfluidics and their applications, Design and fabrication of Micro/Nanofluidics devices and systems, Detection and separation of proteins using Micro/Nanofluidics devices, Micro/Nanofluidics devices for DNA/RNA detection and separation, Paper based microfluidics a forecast towards the most affordable and rapid point-of-care devices, Paper based micro/Nanofluidics devices for biomedical applications, Advances of Microfluidics Devices and their Applications in Personalized Medicine, and much more. Additional chapters cover Microfluidics for single cell analysis, Fluorescence Based Miniaturized Microfluidic and Nanofluidic Systems for Biomedical Applications, Active Matter Dynamics in Confined Microfluidic Environments, Challenges and opportunities in micro/nanofluidics and lab-on-a-chip, and Paper-microfluidic signal-enhanced immunoassays. - Offers basic understanding of the state-of-the-art design and fabrication of microfluidics/ nanofluidics and lab-on-chip - Explains how to develop microfluidics/nanofluidics for biomedical application such as high throughout biological screening and separation - Discusses the applications, challenges and opportunities in biomedical and translational research applications of microfluidics/nanofluidics

Download or read book Femtosecond Laser 3D Micromachining for Microfluidic and Optofluidic Applications written by Koji Sugioka and published by Springer Science & Business Media. This book was released on 2013-09-24 with total page 131 pages. Available in PDF, EPUB and Kindle. Book excerpt: Femtosecond lasers opened up new avenue in materials processing due to its unique features of ultrashort pulse width and extremely high peak intensity. One of the most important features of femtosecond laser processing is that strong absorption can be induced even by materials which are transparent to the femtosecond laser beam due to nonlinear multiphoton absorption. The multiphoton absorption allows us to perform not only surface but also three-dimensionally internal microfabrication of transparent materials such as glass. This capability makes it possible to directly fabricate three-dimensional microfluidics, micromechanics, microelectronics and microoptics embedded in the glass. Further, these microcomponents can be easily integrated in a single glass microchip by the simple procedure using the femtosecond laser. Thus, the femtosecond laser processing provides some advantages over conventional methods such as traditional semiconductor processing or soft lithography for fabrication of microfluidic, optofludic and lab-on-a-chip devices and thereby many researches on this topic are currently being carried out. This book presents a comprehensive review on the state of the art and future prospects of femtosecond laser processing for fabrication of microfluidics and optofludics including principle of femtosecond laser processing, detailed fabrication procedures of each microcomponent and practical applications to biochemical analysis.

Download or read book Printed Flexible Sensors written by Anindya Nag and published by Springer. This book was released on 2019-03-11 with total page 205 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book presents recent advances in the design, fabrication and implementation of flexible printed sensors. It explores a range of materials for developing the electrode and substrate parts of the sensors, on the basis of their electrical and mechanical characteristics. The sensors were processed using laser cutting and 3D printing techniques, and the sensors developed were employed in a number of healthcare, environmental and industrial applications, including: monitoring of physiological movements, respiration, salinity and nitrate measurement, and tactile sensing. The type of sensor selected for each application depended on its dimensions, robustness and sensitivity. The sensors fabricated were also embedded in an IoT-based system, allowing them to be integrated into real-time applications.

Download or read book Fundamentals of Laser Assisted Micro and Nanotechnologies written by Vadim P. Veiko and published by Springer. This book was released on 2014-05-19 with total page 327 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book covers the state of the art of laser micro- and nanotechnology. The physical fundamentals of different processes and the application are presented. The book deals with different materials like phase change and memory alloys, thin films, polymers etc. New phenomena and mechanisms of laser-matter interaction in nano-domains are explained. This book is helpful for students, postgraduates, engineers and researches working not only in the field of laser microtechnology but also in high-tech industry, like photonics, microelectronics, information technology.

Download or read book Microfluidic Devices for Biomedical Applications written by Xiujun (James) Li and published by Woodhead Publishing. This book was released on 2021-08-05 with total page 724 pages. Available in PDF, EPUB and Kindle. Book excerpt: Microfluidic Devices for Biomedical Applications, Second Edition provides updated coverage on the fundamentals of microfluidics, while also exploring a wide range of medical applications. Chapters review materials and methods, microfluidic actuation mechanisms, recent research on droplet microfluidics, applications in drug discovery and controlled-delivery, including micro needles, consider applications of microfluidic devices in cellular analysis and manipulation, tissue engineering and their role in developing tissue scaffolds, and cover the applications of microfluidic devices in diagnostic sensing, including genetic analysis, low-cost bioassays, viral detection, and radio chemical synthesis. This book is an essential reference for medical device manufacturers, scientists and researchers concerned with microfluidics in the field of biomedical applications and life-science industries. - Discusses the fundamentals of microfluidics or lab-on-a-chip (LOC) and explores a wide range of medical applications - Considers materials and methods for microfabrication, microfluidic actuation mechanisms and digital microfluidic technologies - Details applications of microfluidic devices in cellular analysis and manipulation, tissue engineering and its role in developing tissue scaffolds, and stem cell engineering

Download or read book Laser based Micropackaging written by Friedrich G. Bachmann and published by SPIE-International Society for Optical Engineering. This book was released on 2006 with total page 284 pages. Available in PDF, EPUB and Kindle. Book excerpt: Proceedings of SPIE present the original research papers presented at SPIE conferences and other high-quality conferences in the broad-ranging fields of optics and photonics. These books provide prompt access to the latest innovations in research and technology in their respective fields. Proceedings of SPIE are among the most cited references in patent literature.

Download or read book Nano and Microfabrication for Industrial and Biomedical Applications written by Regina Luttge and published by William Andrew. This book was released on 2016-06-12 with total page 280 pages. Available in PDF, EPUB and Kindle. Book excerpt: Nano- and Microfabrication for Industrial and Biomedical Applications, Second Edition, focuses on the industrial perspective on micro- and nanofabrication methods, including large-scale manufacturing, the transfer of concepts from lab to factory, process tolerance, yield, robustness, and cost. The book gives a history of miniaturization and micro- and nanofabrication, and surveys industrial fields of application, illustrating fabrication processes of relevant micro and nano devices. In this second edition, a new focus area is nanoengineering as an important driver for the rise of novel applications by integrating bio-nanofabrication into microsystems. In addition, new material covers lithographic mould fabrication for soft-lithography, nanolithography techniques, corner lithography, advances in nanosensing, and the developing field of advanced functional materials. Luttge also explores the view that micro- and nanofabrication will be the key driver for a "tech-revolution" in biology and medical research that includes a new case study that covers the developing organ-on-chip concept. - Presents an interdisciplinary approach that makes micro/nanofabrication accessible equally to engineers and those with a life science background, both in academic settings and commercial R&D - Provides readers with guidelines for assessing the commercial potential of any new technology based on micro/nanofabrication, thus reducing the investment risk - Updated edition presents nanoengineering as an important driver for the rise of novel applications by integrating bio-nanofabrication into microsystems

Download or read book Design and Fabrication of Polymer based Microfluidic Platforms for Biomems Applications written by Siyi Lai and published by . This book was released on 2003 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Abstract: The goal of this study is to design and fabricate polymer microfluidic devices for BioMEMS applications. The emphasis is on the design of microfluidic functions and the development of a new packaging technique. A microfluidic platform was designed on a compact disk (CD) for medical diagnostics, which includes functions such as pumping, valving, sample/reagent loading, mixing, metering, and separation. The fluid propulsion was based on the centrifugal force. A passive capillary valve, which is based on a pressure barrier that develops when the cross-section of the capillary expands abruptly, was used to control the fluid flow. Micromixing was achieved by impinging mixing and bend-induced vortices. Integration of these microfluidic functions was applied in a two-point calibration system for medical diagnostics and a cascade micromixer for protein reconstitution. A specific application was for enzyme-linked immunosorbent assays (ELISA). It has been demonstrated successfully to realize the necessary microfluidic functions for the ELISA process on a CD. The preliminary analysis of rat IgG from hybridoma culture showed that the microchip-based ELISA has the same detection range as the conventional method on the 96-well microtiter plate, and has advantages such as less reagent consumption and shorter assay time over the conventional one. A new resin-gas injection technique was developed for bonding and surface modification of polymer microfluidic devices. This method can easily bond biochips with complex flow patterns. By adding surface modification agents, the interfacial free energy of the substrate with water can be controlled. Local modification of the channel surface can also be achieved through sequential resin-gas injection in conjunction with the masking technique. For application, this technique was used to form a layer of dry monolithic stationary hydrogel on the walls of a microchannel, serving as a sieving material for electrophoresis separation of DNA fragments. The regent loading, and the electrophoresis separation efficiency of this new technique were compared experimentally with the conventional linear polymer solution method used in the microchannel based DNA sequencing process. It was found that our method has the advantages of more user-friendly operation, easier and faster sample loading, and better separation efficiency.