Showing results 6 to 25 of 33
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| Issue Date | Title | Author(s) |
| 2020-10-30 | Capillary and microchip electrophoresis | Blanes, L; Moreira Gabriel, EF; Mayumi Saito, R; Tomazelli Coltro, WK; Cole, N; Doble, P; Roux, C; Oliveira Dos Santos, R |
| 2016-03-04 | Capillary-driven microfluidic paper-based analytical devices for lab on a chip screening of explosive residues in soil | Ueland, M; Blanes, L; Taudte, RV; Stuart, BH; Cole, N; Willis, P; Roux, C; Doble, P |
| 2009-11-03 | Chemometric Methods Applied to Genetic Analyses by Capillary Electrophoresis and Electrophoresis Microchip Technologies | Funes-Huacca, ME; Alberice, JV; Blanes, L; Carrilho, E |
| 2014-05-20 | Coupling paper-based microfluidics and lab on a chip technologies for confirmatory analysis of trinitro aromatic explosives | Pesenti, A; Taudte, RV; McCord, B; Doble, P; Roux, C; Blanes, L |
| 2014-01-01 | Detection of gunshot residues using mass spectrometry | Taudte, RV; Beavis, A; Blanes, L; Cole, N; Doble, P; Roux, C |
| 2019-05-01 | Developing self-generated calibration curves using a capillary-driven wax-polyester lab on a chip device and thermal gates | Meyer, S; Clarke, C; dos Santos, RO; Bishop, D; Krieger, MA; Blanes, L |
| 2016-04-01 | The development and comparison of collection techniques for inorganic and organic gunshot residues | Taudte, RV; Roux, C; Blanes, L; Horder, M; Kirkbride, KP; Beavis, A |
| 2017-04-01 | The development of a stabbing machine for forensic textile damage analysis | Benson, N; Dos Santos, RO; Griffiths, K; Cole, N; Doble, P; Roux, C; Blanes, L |
| 2015-01-01 | Development of a UHPLC method for the detection of organic gunshot residues using artificial neural networks | Taudte, RV; Roux, C; Bishop, D; Blanes, L; Doble, P; Beavis, A |
| 2008-02-01 | Direct detection of underivatized chitooligosaccharides produced through chitinase action using capillary zone electrophoresis | Blanes, L; Saito, RM; Genta, FA; Donegá, J; Terra, WR; Ferreira, C; do Lago, CL |
| 2017-12-01 | Forensic Science: Current State and Perspective by a Group of Early Career Researchers | Morelato, M; Barash, M; Blanes, L; Chadwick, S; Dilag, J; Kuzhiumparambil, U; Nizio, KD; Spindler, X; Moret, S |
| 2018-11-01 | A Gas Chromatography-Mass Spectrometry Method for Toxicological Analysis of MDA, MDEA and MDMA in Vitreous Humor Samples from Victims of Car Accidents | Ishikawa, AA; Bordin, DM; De Campos, EG; Blanes, L; Doble, P; De Martinis, BS |
| 2012-03-01 | High-voltage power supplies to capillary and microchip electrophoresis | Blanes, L; Coltro, WKT; Saito, RM; Van Gramberg, A; Lucio do Lago, C; Doble, P |
| 2010-02-01 | Ionic mobility of the solvated proton and acid-base titration in a four-compartment capillary electrophoresis system | Saito, RM; Alves Brito-Neto, JG; Lopes, FS; Blanes, L; Da Costa, ET; Rajh Vidal, DT; Hotta, GM; Do Lago, CL |
| 2007-12-01 | Lab-on-a-chip biosensor for glucose based on a packed immobilized enzyme reactor | Blanes, L; Mora, MF; Do Lago, CL; Ayon, A; García, CD |
| 2013-05-10 | Lab-on-a-chip screening of methamphetamine and pseudoephedrine in samples from clandestine laboratories | Lloyd, A; Russell, M; Blanes, L; Doble, P; Roux, C |
| 2017-05-12 | Microfluidic high performance liquid chromatography-chip hyphenation to inductively coupled plasma–mass spectrometry | Bishop, DP; Blanes, L; Wilson, AB; Wilbanks, T; Killeen, K; Grimm, R; Wenzel, R; Major, D; Macka, M; Clarke, D; Schmid, R; Cole, N; Doble, PA |
| 2007-01-01 | Monitoring the electroosmotic flow in capillary electrophoresis using contactless conductivity detection and thermal marks | Saito, RM; Neves, CA; Lopes, FS; Blanes, L; Brito-Neto, JGA; Do Lago, CL |
| 2009-11-03 | Optimization of the Separation of Amino Acids by Capillary Electrophoresis Using Artificial Neural Networks | Van Gramberg, A; Beavis, A; Blanes, L; Doble, P |
| 2020-02-03 | Patterns of floral nectar standing crops allow plants to manipulate their pollinators. | Pyke, GH; Kalman, JRM; Bordin, DM; Blanes, L; Doble, PA |
