Details Details PDF BIBTEX RIS Title Lab-on-a-chip fluorescence detection with image sensor and software-based image conditioning Journal title Bulletin of the Polish Academy of Sciences Technical Sciences Yearbook 2011 Volume 59 Issue No 2 Authors Walczak, R. Divisions of PAS Nauki Techniczne Coverage 157-165 Date 2011 Identifier DOI: 10.2478/v10175-011-0020-3 ; ISSN 2300-1917 Source Bulletin of the Polish Academy of Sciences: Technical Sciences; 2011; 59; No 2; 157-165 References Manz A. (1990), Miniaturized total chemical analysis systems: a novel concept for chemical sensing, Sensors and Actuators, B1, 244. ; Griebel A. (2004), Integrated polymer chip for two-dimensional capillary gel electrophoresis, Lab Chip, 4, 18, doi.org/10.1039/B311032J ; Agirregabiria M. (2007), Concentration, lysis and real-time PCR on a SU-8 lab on a chip for rapid detection of Salmonella spp. in faeces, Proc. μTAS 2007, 1, 584. ; Xiang Q. (2005), Real time PCR on disposable PDMS chip with a miniaturized thermal cycler, Biomedical Microdevices, 7, 4, 273, doi.org/10.1007/s10544-005-6069-8 ; Neuzil P. (2006), Ultra fast miniaturized real-time PCR: 40 cycles in less than six minutes, Nucleid Acid Research, 34, 11, 77, doi.org/10.1093/nar/gkl416 ; Cady N. (2005), Real-time PCR detection of Listeria monocytogens using integrated microfluidic platforms, Sensors and Actuators, B 107, 332. ; Xiang Q. (2007), Miniature real time PCR on chip with multi-channel fiber optical fluorescence detection module, Biomedical Microdevices, 9, 443, doi.org/10.1007/s10544-007-9048-4 ; Lee D.-S. (2004), A novel real-time PCR machine with a miniature spectrometer for fluorescence sensing in a micro liter volume glass capillary, Sensors and Actuators, B 100, 401. ; Novak L. (2006), A palm-sized real-time (RT) PCR, Proc. μTAS 2006, 1, 332. ; Cho Y.-K. (2006), Clinical evaluation of micro-scale chip-based PCR system for rapid detection of hepatitis B virus, Biosensors and Bioelectronics, 21, 2161, doi.org/10.1016/j.bios.2005.10.005 ; Wang Z. (2006), Real-time PCR using a PCR microchip with integrated thermal system and polymer waveguide for the detection of Campylobacter Jejuni, Proc. MEMS 2006, 1, 542. ; Walczak R. (2008), Miniaturized system for real-time PCR in low-cost disposable LTCC chip with integrated optical waveguide, Proc. μTAS 2008, 1, 1078. ; Dziuban J. (2006), Bonding in Microsystem Technology. ; Augustyniak D. (2009), Immunochemistry in Medical Biology. ; Piruska A. (2005), The autofluorescence of plastic materials and chips measured under laser irradiation, Lab Chip, 5, 1348, doi.org/10.1039/b508288a ; Szczepańska P. (2008), SU-8 planar waveguides for real-time PCR chips, Proc. Eur. 2008 Conf, 1, 383. ; Ruano-Lopez J. (2009), The SmartBioPhone, a point of care vision under development trough two European projects: OPTOLABCARD and LABONFOIL, Lab Chip, 9, 11, 1495, doi.org/10.1039/b902354m ; Agirregabiria M. (2008), A smart system based on lab on a card for detection of Salmonella spp. in faeces, null, 1. ; Bang D. (2009), A total integrated lab-on-a-chip systems for rapid detection of Campylobacter spp. in broiler chicken, validation trial, Proc. μTAS 2009, 1, 345. ; Walczak R. (2008), Miniature system for real-time PCR for low-cost and mass-scale detection of food pathogens, Electronics, 49, 6, 242. ; Walczak R. (2010), Lab-on-a-chip - based DNA/PCR analyzers with fluorometric detection, PAK, 56, 7, 805. ; Kubicki W. (2010), Labs-on-a-chip for DNA analyze by capillary gel electrophoresis, null, 1, 133. ; F. von Heeren (1996), Characterization of electrophoretic sample injection and separation in a gel-filled cyclic planar microstructure, J. Microcolumn Separations, 8, 6, 373, doi.org/10.1002/(SICI)1520-667X(1996)8:6<373::AID-MCS1>3.0.CO;2-Z ; Bargiel S. (2008), Microcytometer with simultaneous photometric and fluorometric characterization of biosamples, Proc. Eurosensors 2008 Conf, 1, 517. ; Szczepańska P. (2010), Quality and viability assessment of oocytes/embryos of animals by optical characterization in lab-on-a-chip device, Proc. μTAS 2010, 1, 697. ; <i>DRUID Project</i> <a target="_blank" href='http://www.druid-project.eu'>http://www.druid-project.eu</a> ; Walczak R. (2009), Toward portable instrumentation for quantitative cocaine detection with lab-on-a-paper and hybrid optical readout, Procedia Chemistry, 1, 1, 999, doi.org/10.1016/j.proche.2009.07.249 ; Walczak R. (2010), Fluorometric detector of cocaine in human sweat - portable new generation narcometer, PAK, 56, 7, 812.