1) Measurements of Chemical Warfare Agent Degradation Products Using an Electrophoresis Microchip with Contactless Conductivity Detector
Wang, J.; Pumera, M.; Collins, G. E.; Mulchandani, A.
Anal. Chem.; (Technical Note); 2002; 74(23); 6121-6125. DOI: 10.1021/ac025746p
2) Development of a Conductivity-Based Photothermal Absorbance Detector for Capillary Separations
Johnston, S. E.; Fadgen, K. E.; Jorgenson, J. W.
Anal. Chem.; (Article); 2006; 78(15); 5309-5315.
3) A Dry Process for Production of Microfluidic Devices Based on the Lamination of Laser-Printed Polyester Films
Lucio do Lago, C.; Torres da Silva, H. D.; Neves, C. A.; Alves Brito-Neto, J. G.; Fracassi da Silva, J. A.
Anal. Chem.; (Article); 2003; 75(15); 3853-3858.
4) Fabrication of Poly(methyl methacrylate) Microfluidic Chips by Atmospheric Molding
Muck, A., Jr.; Wang, J.; Jacobs, M.; Chen, G.; Chatrathi, M. P.; Jurka, V.; Vyborny, Z.; Spillman, S. D.; Sridharan, G.; Schoning, M. J.
Anal. Chem.; (Article); 2004; 76(8); 2290-2297
5) Monitoring the Electroosmotic Flow in Capillary Electrophoresis Using Contactless Conductivity Detection and Thermal Marks
Saito, R. M.; Neves, C. A.; Lopes, F. S.; Blanes, L.; Brito-Neto, J. G. A.; do Lago, C. L.
Anal. Chem.; (Article); 2007; 79(1); 215-223.