Enhanced sequestration of methylene blue and crystal violet dye onto green synthesis of pectin modified hybrid (Pect/AILP-Kal) nanocomposite

Herein, a low-cost and green adsorbent (Pect/AILP-Kal) was successfully synthesized from pectin modified with hybrid mixture of Azadirachta indica leaves and kaolin clay and further analyzed as an efficient adsorbent for sequestration of MB and CV dyes. Effect of the operational parameters, for instance concentration, temperature, dose, pH and contact time on adsorption characteristics were studied in detail. The optimum pH for sequestration of MB and CV was obtained at pH 7.5 with time of 180 min. Adsorption kinetics for MB and CV dyes was best followed with pseudo-second order. The equilibrium data showed that the Langmuir was best obeyed with an isotherm model. The endothermic and spontaneous nature was indicated by the positive AH degrees values and negative values of Delta G degrees calculated from the thermodynamic parameters. Breakthrough and exhaustive capacities were identified as being 16 and 76 (mg g(-1)) for MB while 20 and 72 (mg g(-1)) for CV dyes respectively. Desorption results showed that synthesized (Pect/AILP-Kal) nanocomposite can be reused upto fifth cycle successfully. In order to remove these hazardous dyes from aqueous solution, (Pect/AILP-Kal) nanocomposite can be utilized very effectively and economically.

Automated summary

A low-cost and green adsorbent (Pect/AILP-Kal) was synthesized and effectively used for sequestration of MB and CV dyes, with optimum pH and time conditions. Adsorption process followed pseudo-second order kinetics and Langmuir isotherm model, indicating endothermic and spontaneous nature. The synthesized nanocomposite showed good reusability and efficient removal of hazardous dyes.