The effect of crystallinity on the surface modification and optical properties of ZnO thin films

Abstract:

The crystallinity of starting materials has a vital role in determining the structure modification and optical properties of ZnO films after H₂ annealing.

“…The asymmetric O 1s peak was coherently fitted by three Gaussian components, which are low binding energy peak (O A ), medium binding energy peak (O B ), and high binding energy peak (Oc) [32]. The O A peak of the 1s spectrum could be associated to the O 2ions on the wurtzite structure of the hexagonal Zn 2+ ion array, which are encircled by zinc atoms with the full supplement of neighbor O 2− ions [33]. Therefore, The O A peak of the 1s spectrum can be related to the Zn-O bonds [34].…”

Enhanced Electrical Properties of Alkali-Doped ZnO Thin Films with Chemical Process

“…The asymmetric O 1s peak was coherently fitted by three Gaussian components, which are low binding energy peak (O A ), medium binding energy peak (O B ), and high binding energy peak (Oc) [32]. The O A peak of the 1s spectrum could be associated to the O 2ions on the wurtzite structure of the hexagonal Zn 2+ ion array, which are encircled by zinc atoms with the full supplement of neighbor O 2− ions [33]. Therefore, The O A peak of the 1s spectrum can be related to the Zn-O bonds [34].…”

Enhanced Electrical Properties of Alkali-Doped ZnO Thin Films with Chemical Process

Unfolding essence of nanoscience for improved water splitting hydrogen generation in the light of newly emergent nanocatalysts

Modified interfaces of ZnO thin films through MoS2 addition in precursor solution for MoS2/ZnO heterojunctions and their enhanced ultraviolet photodetection properties