A two-dimensional crystal growth in anatase titania nanostructures driven by trigonal hydronium ions

Siti Khatijah Md Saad; Nabilah Alias; Muhamad Adam Ramli; Nur Adliha Abdullah; Nurul Ain Abd Malek; Mohd Mustaqim Rosli; Akrajas Ali Umar

doi:10.1039/d0ra01437k

A two-dimensional crystal growth in anatase titania nanostructures driven by trigonal hydronium ions

RSC Adv. 2020 Apr 30;10(29):16886-16891. doi: 10.1039/d0ra01437k. eCollection 2020 Apr 29.

Authors

Siti Khatijah Md Saad¹, Nabilah Alias¹, Muhamad Adam Ramli¹, Nur Adliha Abdullah¹, Nurul Ain Abd Malek¹, Mohd Mustaqim Rosli¹, Akrajas Ali Umar¹

Affiliation

¹ Institute of Microengineering and Nanoelectronics, Universiti Kebangsaan Malaysia 43600 Bangi Selangor Malaysia akrajas@ukm.edu.my.

Abstract

Two-dimensional growth or high-energy faceting during a wet-chemical nanocrystal growth involves a dynamic surfactant functionalization that selectively allows a particular crystal plane to grow and simultaneously, passivates others from evolving. Here, by simply controlling the concentration of hydronium ions in a liquid-phase deposition reaction, the two-dimensional growth of a few atoms thick and (001) facet in anatase titania nanostructures can be achieved. The morphology can be modified from nanocube to nanobelt and nanosheet by increasing the hydronium ion concentration. Raman analysis reveals that the trigonal hydronium ions attach to the growing planes of anatase TiO₂ via a dative bonding, projecting atom-thick and large-scale (001) faceted nanobelts and nanosheets.