References
- [1] Renzi, R.F., Stamps, J., Horn, B.A., Ferko, S., VanderNoot, V.A., West, J.A.A., Crocker, R., Wiedenman, B., Yee, D., Fruetel, J.A. (2005). Handheld microanalytical instrument for chip-based electrophoretic separations of proteins. AnalyticalChemistry, 77 (2), 435-441.
- [2] Weiping, Y., Liqun, D., Jing, W., Lingzhi, M., Jianbo, Z. (2005). Simulation and experimental study of PCR chip based on silicon. Sensors and Actuators B:Chemical, 108 (1), 695-699.
- [3] Lo, R.C., Ugaz, V.M. (2008). Microchip DNA electrophoresis with automated whole-gel scanning detection. Lab on a Chip, 8 (12), 2135-2145.
- [4] Lv, H.F., Yan, W.P., Pan, L. (2011). Continue flow PCR-CE chip for DNA analysis. Sensor Letters, 9 (2), 755-758.
- [5] Shang, F., Guihen, E., Glennon, J.D. (2012). Recent advances in miniaturisation-The role of microchip electrophoresis in clinical analysis. Electrophoresis, 33 (1), 105-116.
- [6] Pascali, J.P., Bortolotti, F., Tagliaro, F. (2012). Recent advances in the application of CE to forensic sciences, an update over years 2009-2011. Electrophoresis, 33 (1), 117-126.
- [7] Mora, M.F., Stockton, A.M., Willis, P.A. (2012). Microchip capillary electrophoresis instrumentation for in situ analysis in the search for extraterrestrial life. Electrophoresis, 33 (17), 2624-2638.
- [8] Song, J.M., Vo-Dinh, T. (2004). Miniature biochip system for detection of Escherichia coli O157:H7 based on antibody-immobilized capillary reactors and enzyme-linked immunosorbent assay. AnalyticaChimica Acta, 507 (1), 115-121.
- [9] Woolley, A.T., Sensabaugh, G.F., Mathies, R.A. (1997). High-speed DNA genotyping using microfabricated capillary array electrophoresis chips. Analytical Chemistry, 69 (11), 2181-2186.
- [10] Shen, Z., Liu, X., Long, Z., Liu, D., Ye, N., Qin, J., Dai, Z., Lin, B. (2006). Parallel analysis of biomolecules on a microfabricated capillary array chip. Electrophoresis, 27 (5-6), 1084-1092.
- [11] Hsiung, S.K., Lin, C.H., Lee, G.B. (2005). A microfabricated capillary electrophoresis chip with multiple buried optical fibers and microfocusing lens for multiwavelength detection. Electrophoresis, 26 (6), 1122-1129.
- [12] Geiger, M., Hogerton, A.L., Bowser, M.T. (2011). Capillary electrophoresis. Analytical Chemistry, 84 (2), 577-596.
- [13] Lin, S.W., Chang, C.H., Lin, C.H. (2011). Highthroughput fluorescence detections in microfluidic systems. Genomic Medicine, Biomarkers, and HealthSciences, 3 (1), 27-38.
- [14] De Castro, A., Zumel, P., García, O., Riesgo, T., Uceda, J. (2003). Concurrent and simple digital controller of an AC/DC converter with power factor correction based on an FPGA. IEEE Transactions onPower Electronics, 18 (1), 334-343.
- [15] Kepa, K., Coburn, D., Dainty, J.C., Morgan, F. (2008). High speed optical wavefront sensing with low cost FPGAs. Measurement Science Review, 8 (4), 87-93.
- [16] Kornaros, G. (2010). A soft multi-core architecture for edge detection and data analysis of microarray images. Journal of Systems Architecture, 56 (1), 48-62.
- [17] Zou, L., Fu, Z., Zhao, Y.Z., Yang, J.Y. (2010). A pipelined architecture for real time correction of nonuniformity in infrared focal plane arrays imaging system using multiprocessors. Infrared Physics andTechnology, 53 (4), 254-266.
- [18] Texas Instruments, Inc. (1997). TLC5510 8-Bit HighspeedAnalog-to-digital Converters.
- [19] Kalomiros, J.A., Lygouras, J. (2008). Design and evaluation of a hardware/software FPGA-based system for fast image processing. Microprocessors andMicrosystems, 32 (2), 95-106.
- [20] Fung, R.F., Weng, M.H., Kung, Y.S. (2009). FPGAbased adaptive backstepping fuzzy control for a micropositioning Scott-Russell mechanism. MechanicalSystems and Signal Processing, 23 (8), 2671-2686.
- [21] Kawate, E., Hain, M. (2012). New scatterometer for spatial distribution measurements of light scattering from materials. Measurement Science Review, 12 (2), 56-61.
- [22] Pfleging, W., Kohler, R., Schierjott, P., Hoffmann, W. (2009). Laser patterning and packaging of CCD-CEChips made of PMMA. Sensors and Actuators B:Chemical, 138 (1), 336-343.