Mari Papel y Corrugado

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  • Research article

Mari Papel y Corrugado

Synthesis of ZnS loaded biochar nanocomposite and application towards Pb2+ ions removal: An RSM based optimization

Author(s): V. Vandhana Devi1, S. Radjarejesri2, Pandurangan Selvaganapathi 3, R. Lakshmipathy4
1Department of Education, National Institute of Technical Teachers Training and Research, Chennai, India
2Department of Science, Sona College of Technology, Salem-636005, Tamilnadu, India
3Department of Chemistry, SRM TRP Engineering College, Tirchy-621105, Tamilnadu, India
4Directorate of Learning and Development, SRM Institute of Science and Technology, Kattankulathur, Tamilnadu, India-603203
  • Received: 17/11/2025
  • Accepted: 15/01/2026
  • Published: 28/01/2026
Devi, V. Vandhana . et al “Synthesis of ZnS loaded biochar nanocomposite and application towards Pb2+ ions removal: An RSM based optimization.” Mari Papel y Corrugado Volume 2026: 25-33, doi:10.71442/mari2026-0003.

Abstract

The present study reports the synthesis of ZnS nanoparticles via green synthesis route and loading them onto the jamun seeds biochar to prepare a nanocomposite. The synthesized nanocomposite were characterized with FTIR, XRD and SEM. The synthesized ZnS nanoparticles were found to be spherical in shape with size less than 5 nm. SEM images confirmed the loading of ZnS nanoparticles onto the biochar. The nanocomposite was employed in the removal of Pb2+ ions using a developed CCD by RSM. The significance of the model was supported by the p-value being less than 0.0001 and higher F-value. The loading capacity of the ZnS loaded biochar is calculated to be 211.0 mg g-1. The isotherm and kinetic investigations suggest the applicability of Langmuir and Pseudo second order models to the equilibrium data. The spontaneity of the process is well supported by the thermodynamic values. 0.1 M HCl exhibited highest desorption ability compared to other desorbing agents and successfully regenerated the nanocomposite. The ability of the ZnS loaded biochar nanocomposite to successfully eliminate the Pb2+ ions was demonstrated and unveils the real time applications in waste water treatments.

Keywords
ZnS, Biochar, Lead, Nanomaterials

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