Open Access
Subscription Access
Enhanced Photocatalytic Activity of Coupled ZnO/SnO2 Nanocomposite Under Visible Light for the Degradation of Quinalphos in Aqueous Solution
Metal nanocomposite as photocatalyst plays a major role for treating organic and inorganic pollutants present in industrial effluent through photocatalytic process. In this study, the co-precipitation method has been demonstrated in the preparation of ZnO/SnO2nanocomposite. The catalytic behaviour of the ZnO/SnO2 is studied against Quinalphos pesticide under the illumination of direct sunlight at neutral pH. The photocatalytic performance of ZnO/SnO2 nanocomposite is examined by loading 2 mg/L of the catalyst in 30 ppm of the Quinalphos solution to achieve 98 % degradation in thirty minutes. The structural and chemical compositional analysis of the prepared ZnO/SnO2nanocomposite has been characterised by X-ray diffraction pattern and FT-IR spectrum respectively. The morphological analysis of ZnO/SnO2 nanocomposite is done by scanning electron microscope (SEM). The UV-Visible absorption spectroscopy is used to examine the optical properties of ZnO/SnO2nanocomposite together with the photo degradation process of Quinalphos pesticide. The presence of oxygen vacancies and the fluorescence property of the prepared nanocomposite are detected by fluorimetric analysis. Degradation efficiency is estimated by COD and TOC measurements. Moreover, the stability and quality of the prepared ZnO/SnO2nanocomposite could be separated easily and utilised for multiple cycles with no change in its activity.
Keywords
Contaminants, Photodegradation, Sun light, Quinalphos pesticide, ZnO/SnO2nanocomposite
User
Font Size
Information
- Mohamed Alaa, Osman T A, Toprak M S, Muhammed Eda Yilmaz M & Uheida A, J Mol Catal A: Chem, 424 (2016) 45.
- Zunnisia Hay & Babagil Aynua, Appl Water Sci, 107 (2019) 1.
- Saleh Sayed M, Res Dev Mater Sci, 9 (2019) 990.
- Ramakrishnan B, Megharaj, Venkateshwarlu M, Naidu R & Sethunathan N, Citric Rev Environ Sci Technol, 40 (2010) 699.
- Garg Renuga, Gupta Renu, Sing Nirmal & Bansal Ajay, Chemosphere, 286 (2022) 1.
- Yeganeh Mojtaba, Charkhloo Esmail, Sobhi Hamid Reza, Esrafili Ali & Gholami Mitra, Chem Eng J, 428 (2022) 1.
- Rafiq Asma, Ikram Muhammed, Ali S, Niaz Faiza, Maazkhan & Maqbool Qasim Khan Muhammad, J Indust Eng Chem, 97 (2021) 111.
- Subbulekshmi N L & Subramanian E, Chem Biol Sci, 6 (2018) 85.
- Velmurugan R, Subash B, Krishnakumar B, Selvam K & Swaminathan M, Indian J Chem Technol, 23 (2016) 139.
- Behera Lingaraj, Barik Balaram & Mohapatra Sasmita, Colloids Surf A: Physicochem Eng Asp, 620 (2021) 1.
- Lopez- Lopez Juan, Tejeda- Ochoa Armando, Lopez- Beltran Ana, Herrera-Ramirez Jose & Mendez-Herrera Pearla, Molecules, 27 (2021) 1.
- Singh Pushpendra, Kumar Ranveer & Singh Rajan Kumar, Am Chem Soc, 58 (2019) 17130.
- Zadeh Mohammad, Olya M E, Arabi A M, Shariati A & Khostavi Nikou M R, J Environ Sci, 35 (2015) 194.
- Chinnappa L, Ravichandra K, Saravanakumas K, Muruganantham G & Sakthivel B, J Mater Sci Mater Electron, 22 (2011) 1827.
- Liu Jianqiao, Hong Ye, Tian Xinyue, Meng Xiangxu, Gao Ge, He Tiantian, Nie Yichen, Jin Guohua, Zhai Zhaoxia & Fu Ce, Electron Opt Mater, 28 (2022) 30.
- Sharoti Nidhi, Gupta Shivali & Sud Dhiraj, Nanotechnol Environ Eng, 34 (2022) 1.
- Kaur Paramjeet, Bansal, Priti Sud & Dhiraj, J Korean Chem Soc, 57 (2013) 382.
- Sraw A, Kaur T, Pandey Y, Verma A, Sobti A, Wanchoo R K & Toor A P, Int J Environ Sci Technol, 17 (2020) 4895.
- Verma Naveen, Yadav Suprabha, Mari Bernabe, Mittal Anuj & Jindal Jintender, Trans Indian Ceram Soc, 77 (2018) 1.
- Subha P P & Jayaraj M K, J Exp Nano Sci, 10 (2015) 1106.
- El-Bindary A A, El-Maddah S M & El-Marsafy A A, J Mol Struct, 1191 (2019) 76.
- Jan Hasnain, Shah M, Usman H, Zia M, Hano Christophe & Abbsai B, Front Mater, 7 (2020) 1.
- Lin Lewei, Han Yongsheng, Fuji Hasayoshi, Endo Takeshi, Wang Xiaowei & Takahashi Minoru, J Ceram Chem Soc Japan, 116 (2008) 198.
- Bargougui R, Omri K, Mhendi A & Amar S, Adv Mater Lett, 6 (2015) 816.
- Omar Karzan A, Darl Meena Bash & Ali Srua, Physicochem Probl Miner Process, 52 (2016) 754.
- Amini Mojtaba & Ashrafi Mahadi, Winter Spring, 1 (2016) 79.
- Lanje Amruta S, Sharma Satish J & Pode Ramchandra B, J Chem Pharm Res, 2 (2010) 478.
- Sinha Arun Kumar, Pradhan Mukul, Sarkar Saugata & Pal Tarasankar, Environ Sci Technol, 47 (2013) 2839.
- Kiwaan H A, Atwee T M, Azab E A & El-Bindary A A, J Mol Struct, 1200 (2020) 1.
- Jin Chang Qing, Haige Cheng, Jian Zengyun & Xing Wei Yong, Nano Express, 11 (2016) 1. 31 Shah Faisal, Hasnain Jan, Sajjad Ali Shah, Sumaira Shah, Adnan Khan, Muhammad Taj Akbar, Muhammad Rizwan, Faheem Jan, Wajidullah, Noreen Akhtar, Aishma Khattak & Suliman Syed, Am Chem Soc Omega, 6 (2021) 9709.
- Chawla Santa, Jayanthi K, Chander Harish & Divi Haranath, J Alloys Comp, 459 (2008) 457.
- Urban Ben E, Neogi Purnima B, Butler Sween J, Fujita Yasuhisa & Neogi Arup, J Biophotonics, 5 (2012) 283.
- Subramaniam Mohan Priya, Arunachalam Geetha, Kandasamy Ramamurthi, Veluswamy Pandiyarasan & Hiroya I keda, J Mater Sci Mater Electron, 29 (2018) 658.
- Shi Xueqing, Huang, Shujuan, Yeap Tsuey Shan, Ong Say leong & Ng How Yong, Chemosphere Chem, 240 (2020) 1.
- Khurshid Hifsa, Mustafa Muhammad Raza U l & Isa Mohamed Hasnain, Adsorp Sci Technol, 3 (2022) 1.
- Zeng Quanqian, Liu Ying, Shen Liguo, Lin Hongjun, Yu Weiming, Xu Yanchao, Li Renjie & Huang Lilin, J Colloid Interf Sci, 582 (2021) 291.
- Ranjitha Mathiarasu Roselin, Manikandan A, Nathan Panneerselvam Kurinji, George Mary, Raja Kanmani K, Almessiere M A, Slimani Y, Baykal A, Abdullah M Asiri, Kamal Tahseen, Anish Khan, J Mat Res Technol, 15 (2021) 5936.
- Luan Jingfei & Hu Zhitian, Int J Photoenergy, 2012 (2011) 1.
Abstract Views: 170
PDF Views: 119