Enhanced electrochemical detection of heavy metals at heated graphite nanoparticle-based screen-printed electrodesElectronic supplementary information (ESI) available: Figures of merit for carbon nanoparticle-based SPEs at room temperature for the Pb2+detection in seawater; TEM and SEM images of the graphite ink used for the development of the carbon nanoparticle-based SPE WE after heating at 40 °C; optimization of analytical parameters; calibration curves for carbon nanoparticle-based SPEs at room temperature for single and multiple detection of heavy metals; microanalysis of the different areas of a carbon nanoparticle-based SPE after deposition of heavy metals at room temperature; effect of the temperature on heavy metal detection using carbon microparticle SPEs; long-term stability for carbon nanoparticle-based SPEs in seawater at room temperature. See DOI: 10.1039/c0jm03751f/

MLA

Gemma Aragay, et al. “Enhanced Electrochemical Detection of Heavy Metals at Heated Graphite Nanoparticle-Based Screen-Printed ElectrodesElectronic Supplementary Information (ESI) Available: Figures of Merit for Carbon Nanoparticle-Based SPEs at Room Temperature for the Pb2+detection in Seawater; TEM and SEM Images of the Graphite Ink Used for the Development of the Carbon Nanoparticle-Based SPE WE after Heating at 40 °C; Optimization of Analytical Parameters; Calibration Curves for Carbon Nanoparticle-Based SPEs at Room Temperature for Single and Multiple Detection of Heavy Metals; Microanalysis of the Different Areas of a Carbon Nanoparticle-Based SPE after Deposition of Heavy Metals at Room Temperature; Effect of the Temperature on Heavy Metal Detection Using Carbon Microparticle SPEs; Long-Term Stability for Carbon Nanoparticle-Based SPEs in Seawater at Room Temperature. See DOI: 10.1039/C0jm03751f/.” Journal of Materials Chemistry, vol. 21, no. 12, Mar. 2011, pp. 4326–31. EBSCOhost, https://doi.org/10.1039/c0jm03751f.

APA

Gemma Aragay, Josefina Pons, & Arben Merkoçi. (2011). Enhanced electrochemical detection of heavy metals at heated graphite nanoparticle-based screen-printed electrodesElectronic supplementary information (ESI) available: Figures of merit for carbon nanoparticle-based SPEs at room temperature for the Pb2+detection in seawater; TEM and SEM images of the graphite ink used for the development of the carbon nanoparticle-based SPE WE after heating at 40 °C; optimization of analytical parameters; calibration curves for carbon nanoparticle-based SPEs at room temperature for single and multiple detection of heavy metals; microanalysis of the different areas of a carbon nanoparticle-based SPE after deposition of heavy metals at room temperature; effect of the temperature on heavy metal detection using carbon microparticle SPEs; long-term stability for carbon nanoparticle-based SPEs in seawater at room temperature. See DOI: 10.1039/c0jm03751f/. Journal of Materials Chemistry, 21(12), 4326–4331. https://doi.org/10.1039/c0jm03751f

Chicago

Gemma Aragay, Josefina Pons, and Arben Merkoçi. 2011. “Enhanced Electrochemical Detection of Heavy Metals at Heated Graphite Nanoparticle-Based Screen-Printed ElectrodesElectronic Supplementary Information (ESI) Available: Figures of Merit for Carbon Nanoparticle-Based SPEs at Room Temperature for the Pb2+detection in Seawater; TEM and SEM Images of the Graphite Ink Used for the Development of the Carbon Nanoparticle-Based SPE WE after Heating at 40 °C; Optimization of Analytical Parameters; Calibration Curves for Carbon Nanoparticle-Based SPEs at Room Temperature for Single and Multiple Detection of Heavy Metals; Microanalysis of the Different Areas of a Carbon Nanoparticle-Based SPE after Deposition of Heavy Metals at Room Temperature; Effect of the Temperature on Heavy Metal Detection Using Carbon Microparticle SPEs; Long-Term Stability for Carbon Nanoparticle-Based SPEs in Seawater at Room Temperature. See DOI: 10.1039/C0jm03751f/.” Journal of Materials Chemistry 21 (12): 4326–31. doi:10.1039/c0jm03751f.