Photodegradation of spent wash, a sugar industry waste, using vanadium-doped TiO2 nanoparticles

Shrikant P Takle; Sonali D Naik; Supriya K Khore; Siddhanath A Ohwal; Namdev M Bhujbal; Sukeshani L Landge; Bharat B Kale; Ravindra S Sonawane

doi:10.1039/c8ra02869a

Photodegradation of spent wash, a sugar industry waste, using vanadium-doped TiO₂ nanoparticles

RSC Adv. 2018 Jun 4;8(36):20394-20405. doi: 10.1039/c8ra02869a. eCollection 2018 May 30.

Authors

Shrikant P Takle¹, Sonali D Naik¹, Supriya K Khore¹, Siddhanath A Ohwal¹, Namdev M Bhujbal², Sukeshani L Landge², Bharat B Kale¹, Ravindra S Sonawane¹

Affiliations

¹ Centre for Materials for Electronics Technology, Government of India Panchavati, Off Pashan Road Pune 411008 India sonawaner@yahoo.com sonawane@cmet.gov.in.
² Annasaheb Magar College Hadapsar Pune 411028 India.

Abstract

Waste from the sugar cane industry and alcohol distilleries is one of the sources of water pollution, and the degradation of this effluent is a very challenging task. Photocatalytic degradation can be an attractive alternative to conventional degradation processes. A vanadium-doped TiO₂ (V-TiO₂) photocatalyst for the degradation of spent wash and industrial dyes has been studied and reported here. V-doped TiO₂ nanoparticles were prepared using a sol-gel method based on aqueous titanium peroxide with titanium isopropoxide as the Ti precursor and V₂O₅ as the V precursor. In order to observe the effect of the dopant on sol-gel behaviour, physicochemical and structural properties, the concentration of V was varied between 1.0% and 5% by weight. The crystallization temperature and time were optimized to obtain the required phase of V-TiO₂. The physicochemical and structural characteristics of the V-doped TiO₂ catalyst were determined using Brunauer-Emmett-Teller (BET), X-ray diffraction, FESEM, TEM, TG, FT-IR, Raman, PL and UV-visible spectroscopic techniques. UV-visible analysis showed a red shift in the absorption edge of TiO₂ upon doping with V metal, which suggested an increase in the absorption of visible light due to a decrease in the effective band gap. The application potential of the V-TiO₂ catalyst was studied via the degradation of sugar industry waste (spent wash) and Jakofix red dye (HE 8BN) under natural sunlight, as well as a standard artificial solar energy source (Xe lamp). The highest activity was observed for a 1% V-TiO₂ photocatalyst for the degradation of spent wash and Jakofix red dye under natural sunlight. The degradation of coloured compounds in spent wash was monitored by gel permeation chromatography (GPC), which showed the degradation of high-molecular-weight compounds into low-molecular-weight fractions. The catalyst decomposed 90% of Jakofix red dye (HE 8BN) in 3.5 h and 65% of spent wash in 5 h under irradiation with natural sunlight, whereas Degussa P-25 TiO₂ was only able to decompose 35% of the dye and 20% of spent wash under identical reaction conditions. A cycling stability test showed the high stability and reusability of the photocatalyst for degradation reactions, with a recovery of around 94-96%.