Recent development on neem (azadirachta indica) biomass absorbent: Surface modifications and its applications in water remediation

This review paper discusses the latest advances in transfiguring Azadirachta indica (neem) biomass into an adsorbent and how it can be used to clean the environment. As an economical and environmentally favorable adsorbent material, neem biomass has become increasingly popular due to its bioactive p...

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Bibliographic Details
Published in:Chemical physics impact 2024-12, Vol.9, p.100773, Article 100773
Main Authors: Singh, Pragya, Sharma, Shashank, Singh, Kalpana, Singh, Pramod K., Chowdhury, Faisal Islam, Yahya, M.Z.A., Yusuf, S.N.F., Diantoro, Markus, Latif, Famiza Abdul, Singh, N.B.
Format: Article
Language:English
Subjects:
Adsorption
Azadirachta indica
Computational studies and artificial intelligence
Environmental remediation
Fluidized bed technologies and rotary kilns
Functionalization
Heavy metals
Neem biomass
Pollutant removal
Surface modifications
Water remediation
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Summary:This review paper discusses the latest advances in transfiguring Azadirachta indica (neem) biomass into an adsorbent and how it can be used to clean the environment. As an economical and environmentally favorable adsorbent material, neem biomass has become increasingly popular due to its bioactive properties and abundance. The review breaks down modification techniques into chemical and physical processes. Important physical changes covered include preactivation, carbonization, and using fluidized bed technologies and rotary kilns. It has been shown that these methods greatly improve the surface properties of neem biomass, which makes it better at absorbing things and holding more. The changes that were made also have an effect on the adsorption kinetics and isotherms, which helps us understand the adsorption rates and equilibrium behaviors of the changed adsorbents better. Neem biomass adsorbents are illustrated through their versatility and efficacy in the removal of organic pollutants, dyes, and heavy metals from effluent. This is illustrated through specific applications. Additionally, computational studies and artificial intelligence are looked into to see if they can help us understand how adsorption works at the molecular level, improve the efficiency of modification processes, and guess how adsorption will behave. The review also talks about the research gaps and suggests areas for future research. The review emphasizes the crucial importance of integrating experimental and computational methods to enhance the performance of the modified neem biomass and increase its environmental cleaning potential. [Display omitted]
ISSN:2667-0224
2667-0224
DOI:10.1016/j.chphi.2024.100773