PROPERTIES AND MODIFICATION METHODS OF HALLOYSITE NANOTUBES: A STATE-OF-THE- ART REVIEW

Muhammad Jawwad Saif; Hafiz Muhammad Asif; Muhammad Naveed

Vol 63 No 3 (2018): Journal of the Chilean Chemical Society

Original Research Papers

PROPERTIES AND MODIFICATION METHODS OF HALLOYSITE NANOTUBES: A STATE-OF-THE- ART REVIEW

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Muhammad Jawwad Saif,
Hafiz Muhammad Asif,
Muhammad Naveed

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Muhammad Jawwad Saif
Department of Applied Chemistry & Biochemistry, Government College University

Hafiz Muhammad Asif
Department of Applied Chemistry & Biochemistry, Government College University

Muhammad Naveed
Department of Applied Chemistry & Biochemistry, Government College University

Published September 12, 2018

Keywords

Halloysite occurrence,
Halloysite chemistry,
Functionalization of HNTs,
Halloysite properties

How to Cite

Jawwad Saif, M., Muhammad Asif, H., & Naveed, M. (2018). PROPERTIES AND MODIFICATION METHODS OF HALLOYSITE NANOTUBES: A STATE-OF-THE- ART REVIEW. Journal of the Chilean Chemical Society, 63(3). Retrieved from https://jcchems.com/index.php/JCCHEMS/article/view/773

This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

Abstract

The halloysite nanotubes (HNTs) are naturally found in New Zealand, China, Brazil, America, and France. Halloysite nanotubes have unique physical, chemical, and electrochemical properties. Due to their non-hazardous nature and easy availability, they are used in various fields of science. To improve halloysite nanotubes’ interactions, these can be functionalized by different modification methods like covalent functionalization, non-covalent functionalization, etc. The chemical formula of halloysite nanotubes is Al2Si2O5(OH)4.2H2O. HNTs have a nanotubular geometry which exhibit its dimensions on nanoscale. This nanotubular array of HNTs varies with different regions. In this review, we have tried to reiterate the key properties and various methods to modify halloysite nanotubes.

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PROPERTIES AND MODIFICATION METHODS OF HALLOYSITE NANOTUBES: A STATE-OF-THE- ART REVIEW

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