Vanadium-doped CuO: Insight into structural, optical, electrical, terahertz, and full-spectrum photocatalytic properties

兴奋剂 光催化 带隙 材料科学 单斜晶系 分析化学(期刊) 漫反射红外傅里叶变换 吸收光谱法 光电子学 化学 结晶学 光学 晶体结构 冶金 催化作用 物理 生物化学 色谱法
作者
Talaat A. Hameed,S.M. Yakout,Mohammed Ahmed Wahba,Walid Sharmoukh
出处
期刊:Optical Materials [Elsevier BV]
卷期号:133: 113029-113029 被引量:35
标识
DOI:10.1016/j.optmat.2022.113029
摘要

Aiming to widen the band gap, minimize the charge-carrier recombination, and enhance the transport properties, we reported the first synthesis of high purity vanadium-doped CuO as a promising photocatalyst nanopowder for water purification. Pure CuO and Cu 1-x V x O (where x = 0.00, 0.01, 0.03, 0.05, and 0.07 mol) were synthesized by a facile sol-gel technique. The structural investigation performed by both X-ray and selected area electron diffraction patterns evidenced the formation of highly pure monoclinic CuO. The vanadium inclusion caused a noticeable red shift in Bragg's positions. The grain size was estimated by both Debye-Scherrer and Halder-Wagner methods and ranged from 21 to 28 nm. All the vibrational absorption bands disclosed by FTIR measurement are affiliated with monoclinic CuO exhibiting a small shift for V-doped nanopowders. The stoichiometry of the constituent elements (Cu, O, and V) was assured by energy dispersive X-ray analysis (EDX). The presence of agglomeration is the main feature in field emission scanning electron microscope images revealing the nanostructure property of CuO. The band gap energy of Cu 0.93 V 0.07 O determined from diffuse reflectance is 1.44 eV which meets exactly the peak of the solar spectrum rendering it a promisingly photocatalytic material. The rise of absorption in the terahertz range as measured by THz time-domain spectroscopy (THz-TDS) established the increase of density of states owing to the inclusion of vanadium. The incorporation of 0.07 mol of V considerably increases the free sunlight photocatalytic activity of CuO for high concentration Congo red pollutant (20 ppm) from 30 to 76% at the same time of 100 min (over 1.53 times as pure CuO) • Vanadium-doped CuO nanostructure was by a facile sol-gel technique. • The grain size was decreased from 29 nm to 21 nm. • The band gap increases from 1.29 for CuO to 1.45eV for 0.07 mol V- doped CuO. • 0.07-mol Vanadium boosted the photodegradation of Congo red by about 153.0%. • The refractive index and absorption coefficient increase in the Terahertz range.
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