Multicomponent Zn (1-x) Fe 0.8x Na 0.2x O semiconductors: Effect of dopant concentration and ionic radius on structural, opto-electronics, magnetic and sensing properties

Abstract

Fe incorporation in ZnO lattice draws more oxygen which reduces oxygen vacancies. The smaller size and larger charge of the Fe 3+ ion helps to reduce strain initially but with increased substitution generates more strain due to excess oxygen and structural deformation. The mismatch of ionic radii may be addressed by co-substituting with a larger element but with lesser charge. Oxygen defects play a vital role in magnetization and UV-sensing properties of pure ZnO. Oxygen vacancy mediated ferromagnetic exchange interaction should reduce in Fe-doped ZnO due to reduction oxygen vacancies. Similarly UV-sensing should also decrease. Larger sized Na + co-incorporation, with smaller Fe 3+ , helps retention of oxygen vacancies in Zn (1-x) Fe (0.8x) Na (0.2x) O (0 ≤ x ≤ 4/128) enhancing magnetization and enabling faster UV-sensing properties. The x = 4 ∕ 128 sample reveals promising magnetization and shows faster UV-sensing. © 2019