Efficient removal of glyphosate in aqueous matrices employing the novel Mil-53(Al)@RH layered hybrid: adsorption performance and mechanisms (Dataset)

Name: Efficient removal of glyphosate in aqueous matrices employing the novel Mil-53(Al)@RH layered hybrid: adsorption performance and mechanisms (Dataset)
Creator: Luis Angel Zambrano-Intriago
Published: 2022-12-28T21:37:42.021Z
Keywords: Adsorption, Hybrid Material, Metal-Organic Framework, Layered Material, Glyphosate, Electrochemical Sensor

Zambrano-Intriago, Luis Angel; Daza-López, Erlinjka Valentina; Fernández-Andrade, Alex; Amorim, Célia; Araujo, Alberto; Rodriguez-Diaz, Joan Manuel; Montenegro, Maria

doi:10.17632/89ghm7v984.1

Efficient removal of glyphosate in aqueous matrices employing the novel Mil-53(Al)@RH layered hybrid: adsorption performance and mechanisms (Dataset)

Published: 28 December 2022| Version 1 | DOI: 10.17632/89ghm7v984.1

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Adsorption of glyphosate in a batch system: 1) Adsorbent dose 2) Effect of pH0 3) Adsorption kinetics (HYBRID, and MPSD calculation) 4) Adsorption isotherms (HYBRID, and MPSD calculation) 5) Adsorption thermodynamics Adsorption of glyphosate in fixed-bed (column): 1) Breakthrough curves 2) qt, qu and MTZ response variables Electrochemical sensor calibration curves for Glyphosate detection.

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Universidade do Porto, Universidad Tecnica de Manabi

Efficient removal of glyphosate in aqueous matrices employing the novel Mil-53(Al)@RH layered hybrid: adsorption performance and mechanisms (Dataset)

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