6 edition of Lab-on-a-chip found in the catalog.
Includes bibliographical references and index.
|Other titles||Miniaturized systems for biochemical analysis and synthesis|
|Statement||edited by R. Edwin Oosterbroek, Albert van den Berg.|
|Contributions||Oosterbroek, R. Edwin., Berg, A. van den|
|LC Classifications||TP157 .L28 2003|
|The Physical Object|
|Pagination||viii, 394 p. :|
|Number of Pages||394|
|LC Control Number||2004295030|
Frequency: Twenty-four no. a year, Country: England Publisher: Cambridge, UK: Royal Society of Chemistry, cWebsite: Lab on a Chip PAPER Cite this: Lab Chip,,14, Received 27th July , Accepted 1st September DOI: /c4lck Coincidence File Size: 4MB.
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Scope. Lab on a Chip provides a unique forum for the publication of significant and original work related to miniaturisation, at the micro- and nano-scale, of interest to a multidisciplinary readership.
The journal seeks to Lab-on-a-chip book work at the interface between physical technological advancements and high impact applications that are of direct interest to a broad audience. This first Lab-on-a-Chip book contains a broad collection of papers on microtechnology, microfluidics, analytical methods and applications.
All contributions are written by leading researchers in their respective fields, and provide new scientists with an overview of the field, to make him/her aware of the enormous opportunities offered by. This book covers all the steps in order to fabricate Lab-on-a-chip book lab-on-a-chip device starting from the idea, the design, simulation, fabrication and final evaluation.
Additionally, it includes basic theory on microfluidics essential to understand how fluids behave at such reduced scale. Examples of. The necessity of on-site, fast, sensitive, and cheap complex laboratory analysis, associated with the advances in the microfabrication technologies and the microfluidics, made it possible for the creation Lab-on-a-chip book the innovative device lab-on-a-chip (LOC), by which we would be able to scale a single or multiple laboratory processes down to a chip format.
The present book is dedicated to the LOC Author: Margarita Stoytcheva, Roumen Zlatev. This book covers all the steps in order to fabricate a lab-on-a-chip device starting from the idea, the design, simulation, fabrication and final evaluation.
Lab on a Chip is a peer-reviewed scientific journal which publishes original (primary) research and review articles on any aspect of miniaturisation at the micro and nano scale.
Lab on a Chip is published twice monthly by the Royal Society of Chemistry (RSC) and the editor-in-chief is Abraham Lee. The journal was established in and hosts other RSC publications: Highlights in Chemical Discipline: Miniaturisation. Lab-on-a-Chip (LOC) devices integrate and scale down laboratory functions and processes to a miniaturized chip format.
Many LOC devices are used in a wide array of biomedical and other analytical applications including rapid pathogen detection, clinical diagnosis, forensic science, electrophoresis, flow cytometry, blood chemistry analysis, protein analysis, and DNA : Keith E. Herold. Lab on a Chip citation style guide with bibliography and in-text referencing examples: Journal articles Books Book Lab-on-a-chip book Reports Web pages.
PLUS: Download. Lab-on-a-Chip (LOC) devices integrate and scale down laboratory functions and processes to a miniaturized chip format. Many LOC devices are used in a wide array of biomedical and other analytical applications including rapid pathogen detection, clinical diagnosis, forensic science, electrophoresis, flow cytometry, blood chemistry analysis, protein analysis, and DNA analysis.
Written by an interdisciplinary team of chemists, biologists and engineers from one of the leading European centers for microsystem research, MIC in Lyngby, Denmark, this book introduces and discusses the different aspects of (bio)chemical microsystem development.
Unlike other, far more voluminous and theoretical books on this topic, this is a concise, practical handbook, focusing on. Li authored a monograph entitled Microfluidics lab-on- a-chip for chemical and biological analysis and discovery inand has co-authored a book chapter on microfluidic lab-on-a-chip in Ewing’s Analytical Instrumentation Handbook, 3rd edition, Cited by: 8.
The ﬁrst commercial Lab-on-a-chip book lab-on-a-chip-microchips. based systems were introduced for life science InKricka  surveyed the range of micro applications less than three years ago. This book provides a comprehensive coverage of sensor and lab-on-a-chip technologies for medical applications.
Presenting a unified coverage of the operational principles and fabrication issues of the sensors and related chips, this important compendium. Lab-on-a-chip (LOC) devices integrate and scale down laboratory functions and processes to a miniaturized chip format.
Many LOC devices are used in a wide array of biomedical and other analytical applications including rapid pathogen detection, clinical diagnosis, forensic science, electrophoresis, flow cytometry, blood chemistry analysis, protein and DNA analysis.
Mammalian cells cultured on 2D surfaces in microfluidic channels are increasingly used in drug development and biological research applications. These systems would have more biological or clinical relevance if the cells exhibit 3D phenotypes similar to the cells in have developed a microfluidic channel based system that allows cells to be perfusion-cultured in 3D by supporting them Cited by: Through our ‘Lab on a Chip book of choice’ scheme Lab on a Chip will regularly highlight a book from the RSC eBook Collection relevant to your research interests.
Read the latest chapter today by visiting the Lab on a Chip website. The RSC eBook Collection offers: Over new and existing books. Introduction. A microfluidic platform contains set of well-defined fabricated fluidic operational units.
Lab-on-a-chip (LOC) platforms provide a solid way for miniaturization, integration, automation, and parallelization of chemical processes (Mark et al., ).The main advantage of LOC devices is cost efficiency because of using fewer reagents in modular fabricated miniaturized by: 2.
As the lab-on-a-chip systems increase in importance and complexity it is important for scientists to become familiar not only with the technology but also with the potential applications. The editors of this book have brought together expert authors from many countries to produce a comprehensive volume focusing on the applications of LOC.
Droplet-based microfluidic systems have been shown to be compatible with many chemical and biological reagents and capable of performing a variety of “digital fluidic” operations that can be rendered programmable and reconfigurable.
This platform has dimensional. Lab on a Chip presents uTAS Abstracts to The page link below gives the lab on a chip/microfluidics/μTAS communities free access to both current and archived content submitted to the μTAS conferences in the form of extended abstracts.
This service will support workers in finding essential references and hence increase knowledge of past work in the field and assist with current. Journal articles on microfluidic or lab-on-a-chip (LOC) devices increased significantly between and The field rapidly expanded with ~ publications in and ~ in (Fig.
Since many of these devices held potential commercial applications, there was a corresponding rise in patent protection. The first microfluidic File Size: 1MB. lab on a chip A semiconductor chip used to analyze the composition of a person's body fluids (blood, saliva, urine) for medical purposes.
It combines microfluidics and. He's talking about a miniature biological laboratory just tested for the first time onboard the International Space Station.
Called LOCAD-PTS (short for Lab-On-a-Chip Application Development–Portable Test System), the mini-lab detects the presence of bacteria or fungi on the surfaces of a spacecraft far more rapidly than standard methods of culturing.
Lab-on-a-chip technology eliminates these constraints while improving accuracy and flexibility, ushering in a new era of medicine.
This book is an essential reference for students, researchers, and engineers working in diagnostic circuitry and microsystems. Lab‐on‐a‐chip (LOC) and microfluidics are important technologies with numerous applications from drug delivery to tissue engineering.
LOC integrates fluidic and electronic components on a single chip and becomes very attractive due to the possibility of their state‐of‐art implementation in personalized devices for the point‐of‐care treatments.
Microfluidics is the technique that Cited by: 1. ISBN: OCLC Number: Description: 2 volumes: illustrations ; 26 cm: Contents: V. Fabrication and. processing steps onto the platform and making them independent from off-chip controls and bench-top scale techniques.
Even the current source can be integrated into. Generate Lab on a Chip citations for Journal Articles. Searching In print. Online. Online database. Source was: Found in this journal (most common) An abstract compiled in another journal: Creator (often writer) of a piece such as a book, script, play, article, podcast, comic, etc.
Dear Colleagues, Lab-on-a-chip technologies have led to remarkable advances in diagnostics in recent years. These advances include the development of a wide range of diagnostic platforms; novel microfluidic operations; the development of fully-integrated and automated bioanalytical platforms and systems; strategies for multiplex detection; prolonged storage of assay reagents and biomolecules.
Micromachines, an international, peer-reviewed Open Access journal. Dear Colleagues, Lab-on-a-chip (LOC) stands for the vision to integrate all necessary functions to perform, e.g., a chemical analysis, a biochemical assay or even the organic synthesis of new chemicals on a single miniaturized device, built from a planar substrate (silicon, glass, ceramics, polymers, ) using micro and.
Barriers to getting a blood test can be numerable, but infectious disease specialist Robert Bollinger is hoping to overcome those obstacles with a “lab on a chip.”. Through a project called miLab, Bollinger, an international team of Johns Hopkins scientists and silicon chip engineers in Belgium are aiming to create a device that will test blood quickly and inexpensively, at home or in a.
Microsystem Engineering of Lab‐on‐a‐Chip Devices. Editor(s): Dr. Oliver Geschke; Henning Klank PhD, Denmark, this book introduces and discusses the different aspects of (bio)chemical microsystem development.
Unlike other, far more voluminous and theoretical books on this topic, this is a concise, practical handbook, dealing with. lab-on-a-chip systems (Lab on a Chip, Royal Society of Chemistry) have been published recently.
s Microfluidics – An Enabling Technology p From a more business-related point of view, it can be stated that nowadays most MEMS-related technol-ogy roadmaps and market studies point out the significant technological and scientific. Lab on a Chip bb PAPER 1 A micro-scale multi-frequency reactance measurement technique to detect bacterial growth at low bio-particle concentrations Shramik Sengupta, David A.
Battigelli and Hsueh-Chia Chang By increasing the medium resistance (and hence medium RC time) in a capillary appropriate microchannel geometry allows.
MicroTas abstracts are now online. 20 Jan By Jo Stubbs. Lab on a Chip presents uTAS Abstracts to Present: The page link below gives the lab on a chip/microfluidics/uTAS communities FREE ACCESS to both current and archived content submitted to the uTAS conferences in the form of extended abstracts.
It is hoped that this service will. Microfluidic Lab-on-a-Chip for Chemical and Biological Analysis and Discovery focuses on all aspects of the microfluidic lab-on-a-chip technologies and offers an overview of the available technology, its limitations, and its breakthroughs over the years.
Citation Machine® helps students and professionals properly credit the information that they use. Cite your book in Lab on a Chip format for free.
Dittrich and Manz review current and future applications of scaled-down science and look at the impact of lab-on-a-chip technology on drug discovery. Miniaturization can expand the capability of Cited by: Lab-on-a-Chip • Micro total analysis system (µ-TAS) • Vision proposed by Manz, Widmer and Harrison in early ’90’s • Perform sample addition, pretreatment and transport, chemical reactions, separation, and detection on a microscope slide or credit card size chip • Annual conference, MicroTAS, had attendees in ‘02 • ApplicationsFile Size: 1MB.
To use the 'lab on a chip' system, a sample of saliva or a swab from inside the mouth is taken and put inside a container with the chip inside.
The. The Lab on a Chip paper, titled, “Wide-field, high-resolution lensless on-chip microscopy via near-field blind ptychographic modulation,” is funded by the National Science Foundation, grant # Follow UConn Research on Twitter & LinkedIn.microflow cytometer; the works of Wang et al.,9 Yun et al and Herr et al studied the count of two lymphocyte subtypes, CD4+ and CD8+; and the works of Kummrow et al and Frankowski et al reported the three-part differential count of leukocyte on a microfluidic-based cytometer.‘Lab-on-a-chip’ technology is an emerging field, approached by scientists from many disciplines (BOX 2) and exploited for a wide range of applications.
The myriad benefits of microfluidic platforms for the study of biological systems, as well as details of fabrication procedures for .