소장자료
LDR | 04756cam a2200325 a 4500 | ||
001 | 0092144382▲ | ||
005 | 20180520162032▲ | ||
008 | 130522s2013 nyua b 001 0 eng d▲ | ||
010 | ▼a2012951427▲ | ||
020 | ▼a9781627031332 (alk. paper)▲ | ||
020 | ▼a1627031332 (alk. paper)▲ | ||
035 | ▼a(KERIS)REF000017105914▲ | ||
040 | ▼aBTCTA▼beng▼cBTCTA▼dRML▼dOCLCO▼dYDXCP▼dDLC▼d221016▲ | ||
042 | ▼alccopycat▲ | ||
050 | 0 | 0 | ▼aRB43.8. M53▼bM53 2013▲ |
082 | 0 | 4 | ▼a616.07/58▼221▲ |
090 | ▼a616.0758▼bM626j▲ | ||
245 | 0 | 0 | ▼aMicrofluidic diagnostics :▼bmethods and protocols /▼cedited by Gareth Jenkins, Colin D. Mansfield.▲ |
260 | ▼aNew York :▼bHumana Press,▼cc2013.▲ | ||
300 | ▼axiii, 525 p. :▼bill. (some col.) ;▼c26 cm.▲ | ||
490 | 1 | ▼aMethods in molecular biology ;▼v949▲ | |
504 | ▼aIncludes bibliographical references and index.▲ | ||
505 | 0 | 0 | ▼tPresent technology and future trends in point-of-care microfluidic diagnostics /▼rLawrence Kulinsky, Zahra Noroozi, and Marc Madou --▼tTeaching microfluidic diagnostics using Jell-O® chips /▼rCheng Wei T. Yang and Eric T. Lagally --▼tFundamentals of microfluidics for high school students with no prior knowledge of fluid mechanics /▼rVishal Tandon and Walter Peck --▼tMeasuring microchannel electroosmotic mobility and zeta potential by the current monitoring method /▼rChenren Shao and Don L. DeVoe --▼tOverview of the microfluidic diagnostics commercial landscape /▼rLily Kim --▼tPractical aspects of the preparation and filing of patent applications /▼rFiona Bessoth --▼tIntroduction to in vitro diagnostic device regulatory requirements /▼rJonathan Day --▼tMicrofluidic device fabrication by thermoplastic hot-embossing /▼rShuang Yang and Don L. DeVoe --▼tIntroduction to glass microstructuring techniques /▼rRadoslaw Mazurczyk and Colin D. Mansfield --▼tGlass microstructure capping and bonding techniques /▼rRadoslaw Mazurczyk, Colin D. Mansfield, and Marcin Lygan --▼tRapid prototyping of PDMS devices using SU-8 lithography /▼rGareth Jenkins --▼tMicrofluidic interface technology based on stereolithography for glass-based lab-on-a-chips /▼rSong-I Han and Ki-Ho Han --▼tThree-dimensional, paper-based microfluidic devices containing internal timers for running time-based diagnostic assays /▼rScott T. Phillips and Nicole K. Thom --▼tThread based devices for low-cost diagnostics /▼rMeital Reches --▼tDroplet-based microfluidics /▼rSanjiv Sharma ... [ et al.] --▼tDroplet-based microfluidics for binding assays and kinetics based on FRET /▼rMonpichar Srisa-Art and Sanjiv Sharma --▼tSurface treatments for microfluidic biocompatibility /▼rN.J. Shirtcliffe, R. Toon, and P. Roach --▼tSuperhydrophobicity for antifouling microfluidic surfaces /▼rN.J. Shirtcliffe and P. Roach --▼tApplication of microfluidic devices for viral diagnosis in developing countries /▼rSamantha M. Hattersley, John Greenman, and Stephen J. Haswell --▼tApplications of microfluidics for molecular diagnostics /▼rHarikrishnan Jayamohan, Himanshu J. Sant, and Bruce K. Gale --▼tQuantitative heterogeneous immunoassays in protein modified polydimethylsiloxane microfluidic channels for rapid detection of disease biomarkers /▼rPeng Li --▼tBreast cancer diagnostics using microfluidic multiplexed immunohistochemistry /▼rMinseok S. Kim, Seyong Kwon, and Je-Kyun Park --▼tcharged-coupled device (CCD) detectors for lab-on-a chip (LOC) optical analysis /▼rAvraham Rasooly, Yordan Kostov, and Hugh A. Bruck --▼tMultilayer microfluidic poly(ethylene glycol) diacrylate hydrogels /▼rMichael P. Cuchiara and Jennifer L. West --▼tPurification of DNA/RNA in a microfluidic device /▼rAndy Fan, Samantha Byrnes, and Catherine Klapperich --▼tAgarose droplet microfluidics for highly parallel and efficient single molecule emulsion PCR /▼rXuefei Leng and Chaoyong James Yang --▼tIntegrated fluidic circuits (IFCs) for digital PCR /▼rRamesh Ramakrishnan ... [et al.] --▼tmicroFIND® approach to fluorescent in situ hybridization (FISH) /▼rAndrea Zanardi, Emanuele Barborini, and Roberta Carbone --▼tELISA lab-on-a-chip (ELISA-LOC) /▼rAvraham Rasooly, Hugh A. Bruck, and Yordan Kostov --▼tMultiplexed surface plasmon resonance imaging for protein biomarker analysis /▼rEric Ouellet, Louise Lund, and Eric T. Lagally --▼tSurface acoustic wave (SAW) biosensors : coupling of sensing layers and measurement /▼rKerstin Lange, Friederike J. Gruhl, and Michael Rapp --▼tMicrochip UV absorbance detection applied to isoelectric focusing of proteins /▼rJunjie Ou and Carolyn L. Ren.▲ |
650 | 0 | ▼aMolecular diagnosis.▲ | |
650 | 0 | ▼aMicrofluidics.▲ | |
650 | 2 | ▼aMicrofluidics.▲ | |
700 | 1 | ▼aJenkins, Gareth▼c(Microbiologist)▲ | |
700 | 1 | ▼aMansfield, Colin D.▼q(Colin David)▲ | |
830 | 0 | ▼aMethods in molecular biology (Clifton, N.J.) ;▼vv. 949.▲ | |
999 | ▼c정영주▲ |
Microfluidic diagnostics :methods and protocols
자료유형
국외단행본
서명/책임사항
Microfluidic diagnostics : methods and protocols / edited by Gareth Jenkins, Colin D. Mansfield.
개인저자
발행사항
New York : Humana Press , c2013.
형태사항
xiii, 525 p. : ill. (some col.) ; 26 cm.
총서사항
서지주기
Includes bibliographical references and index.
내용주기
Present technology and future trends in point-of-care microfluidic diagnostics / Lawrence Kulinsky, Zahra Noroozi, and Marc Madou -- Teaching microfluidic diagnostics using Jell-O® chips / Cheng Wei T. Yang and Eric T. Lagally -- Fundamentals of microfluidics for high school students with no prior knowledge of fluid mechanics / Vishal Tandon and Walter Peck -- Measuring microchannel electroosmotic mobility and zeta potential by the current monitoring method / Chenren Shao and Don L. DeVoe -- Overview of the microfluidic diagnostics commercial landscape / Lily Kim -- Practical aspects of the preparation and filing of patent applications / Fiona Bessoth -- Introduction to in vitro diagnostic device regulatory requirements / Jonathan Day -- Microfluidic device fabrication by thermoplastic hot-embossing / Shuang Yang and Don L. DeVoe -- Introduction to glass microstructuring techniques / Radoslaw Mazurczyk and Colin D. Mansfield -- Glass microstructure capping and bonding techniques / Radoslaw Mazurczyk, Colin D. Mansfield, and Marcin Lygan -- Rapid prototyping of PDMS devices using SU-8 lithography / Gareth Jenkins -- Microfluidic interface technology based on stereolithography for glass-based lab-on-a-chips / Song-I Han and Ki-Ho Han -- Three-dimensional, paper-based microfluidic devices containing internal timers for running time-based diagnostic assays / Scott T. Phillips and Nicole K. Thom -- Thread based devices for low-cost diagnostics / Meital Reches -- Droplet-based microfluidics / Sanjiv Sharma ... [ et al.] -- Droplet-based microfluidics for binding assays and kinetics based on FRET / Monpichar Srisa-Art and Sanjiv Sharma -- Surface treatments for microfluidic biocompatibility / N.J. Shirtcliffe, R. Toon, and P. Roach -- Superhydrophobicity for antifouling microfluidic surfaces / N.J. Shirtcliffe and P. Roach -- Application of microfluidic devices for viral diagnosis in developing countries / Samantha M. Hattersley, John Greenman, and Stephen J. Haswell -- Applications of microfluidics for molecular diagnostics / Harikrishnan Jayamohan, Himanshu J. Sant, and Bruce K. Gale -- Quantitative heterogeneous immunoassays in protein modified polydimethylsiloxane microfluidic channels for rapid detection of disease biomarkers / Peng Li -- Breast cancer diagnostics using microfluidic multiplexed immunohistochemistry / Minseok S. Kim, Seyong Kwon, and Je-Kyun Park -- charged-coupled device (CCD) detectors for lab-on-a chip (LOC) optical analysis / Avraham Rasooly, Yordan Kostov, and Hugh A. Bruck -- Multilayer microfluidic poly(ethylene glycol) diacrylate hydrogels / Michael P. Cuchiara and Jennifer L. West -- Purification of DNA/RNA in a microfluidic device / Andy Fan, Samantha Byrnes, and Catherine Klapperich -- Agarose droplet microfluidics for highly parallel and efficient single molecule emulsion PCR / Xuefei Leng and Chaoyong James Yang -- Integrated fluidic circuits (IFCs) for digital PCR / Ramesh Ramakrishnan ... [et al.] -- microFIND® approach to fluorescent in situ hybridization (FISH) / Andrea Zanardi, Emanuele Barborini, and Roberta Carbone -- ELISA lab-on-a-chip (ELISA-LOC) / Avraham Rasooly, Hugh A. Bruck, and Yordan Kostov -- Multiplexed surface plasmon resonance imaging for protein biomarker analysis / Eric Ouellet, Louise Lund, and Eric T. Lagally -- Surface acoustic wave (SAW) biosensors : coupling of sensing layers and measurement / Kerstin Lange, Friederike J. Gruhl, and Michael Rapp -- Microchip UV absorbance detection applied to isoelectric focusing of proteins / Junjie Ou and Carolyn L. Ren.
ISBN
9781627031332 (alk. paper) 1627031332 (alk. paper)
청구기호
616.0758 M626j
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