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A Review on Recent Studies on Development of Rice Husk Silica and Its Application in Thin Film Growth
Current Issue
Volume 4, 2018
Issue 4 (July)
Pages: 74-79   |   Vol. 4, No. 4, July 2018   |   Follow on         
Paper in PDF Downloads: 30   Since Sep. 29, 2018 Views: 1082   Since Sep. 29, 2018
Enoch Debayo Ogunmola, Department of Mathematical and Physical Sciences, Afe Babalola University, Ado-Ekiti, Nigeria.
Akintunde Ayodeji Ajayi, Department of Mathematical and Physical Sciences, Afe Babalola University, Ado-Ekiti, Nigeria.
Adewale Adedayo Oyedele, Prototype Engineering Development Institute, Ilesa, Nigeria.
Rice husk based SiO2 is considered as a non-toxic, environmental-friendly, sustainable, also suitable for large scale production and cost-effective material with a wide range of applications. Burning the fuel, rice husk to generate energy results in the waste product called rice husk ash (RHA). RHA is an abundant agricultural by-product. It is rich in silica (over 65%) and can be made into economically viable raw material which can be used for production of silica gels and powders. Recently its application in an adsorbent, catalyst support and thin film semiconductor material is being considered. This paper reviews the production of silica particles from rice husk ash and development of silica thin films using the spray pyrolysis technique.
Rice Husk, Silica Gel, Leaching, Spray Pyrolysis, Environmental-Friendly, Agglomeration
Rahman, R. Silica and clay dispersed in polymer. United States of America: Elsevier, 2018.
Pinar, T., Tulay, M. T., Burcu, K.(2018) Preparation of nanoporous silica aerogel from wheat husk ash by ambient pressure drying process for the dsorptive removal of lead from aqueous solution., Journal of Bioprocessing and Biotechniques, 8, 1, pp. 315.
Trembath-Riechert, E., Wilson, P. J., McGlynn, S. E., & Fischer, W. W. (2015). CrossMark. (C. E. Thure, Editor) Retrieved June 24, 2016, from Pnas Web site: www.pnas.org/lookup/suppl/doi:10.1073/pnas.1500289112
King, M. (2016). Vitality herbs and Clay. Retrieved August 3, 2016, from Vitality herbs and Clay website: https://www.vitalityherbsandclay.com/farm-and-garden/silica-rich-pyrophillite-clay-and-its-known-uses-and-benefits-for-agricultural-purposes.html
Mahwish, S., Masooma, R., Hassan, J., Sidra, J., & Amna, A. (2014). Synthensis of precipitated silca from corn cob by using organic acids, Scientific International (Lahore), 27 (1), 265-269.
Kien-Woh, K., Yusoff R., Abdulaziz, A. C., and Abdullahi, E. C. Characterisation of bio-silica from cogon grass, Powder Technology, 254, 206-213.
Naqvi, Javed, Shah, F H and Mansha, M. (2011). Extraction of amorphous silica from wheat husk by using KMnO4, Journal of Faculty of Engineering and Technology, 18, 1.
Prasad, R. and Pandley M. (2012). Rice husk as renewable source for production of value added silica gel and its application, Bulletin of chemical reaction engineering and catalysis, 2012, Vol. 7, pp. 1-25.
Okoronkwo, E A, Imoisili, P E and Olusunle, O O. (2013). Extraction and characterization of amorphous silica from corn cob ash by sol-gel method, Chemistry and Materials Research, 3, 4, pp. 68-72.
Umeda, J., Kondoh, K. and Michiura, Y. (2007) Process parameters optimization in preparing high-purity amorphous silica originated from rice husks, Material Transactions, 48, 12, pp. 3095-3100.
Rajesh, Gosh and Sounak, Bhattarcherjee (2013). A review study on precipitated silica and activated carbon from rice husk, Chemical Engineering and Process Technology, 2013, 4, 4 pp. 1-7.
Sun, L and Gong, K. Review, silicon-based materials from rice husks and their applications, Industrial Engineering and chemical research, 2001, 40, pp. 5861-5877.
Liu, Q., Poumellec, B., Zhao, X., Girard, G., Bouree, J., Kudlinski, A. (2008). Electron beam poling in amorphous doped H:SiO2 films, Journal of non crystalline solids, 354, pp. 472-475.
Klankaw, P., Chawengkijwanich, C., Grisdanura, N. and Chiarakorn, S. (2012). The hybrid photocatalyst of TiO2-SiO2 thin film prepared from rice husk silica, Superlatitices and Microstructures, 51, pp. 343-352.
Sadjadai, M. S., Farhadyar, N., and Zare, K.(2009) Synthesis of nanosize MCM-41 loaded with TiO2 and study of its photocatalytic activity, Superlattices and Microstructures, 46, pp. 266-271.
Artkla, S., KIm, W., Choi, W., and WIttayakun, J. (2009) Highly enhanced photocatalytic degradation of tetramethylammonium on the hybrid catalyst of Titania and MCM-41 obtained from rice husk silica, Applied Catalysis B: Environmental, 91, pp. 157-164.
Sharma, M. V., Kumari, V. D., and Subramanyam, M. (2008) Photocatalytic degradation of Isoproturon herbicide over TiO2 /Al-MCM-41 composite systems using solar light. 72, s. l.: Chemosphere, 72, pp. 644-651.
Hua, Z. L., Shi J. L., Zhang, W. H., and Huang, W. H. (2002) Direct synthesis and characterization of Ti-containing mesoporous silicca thin films, Materials Lettters, 53, 299-304.
Chakraverty, A., and Kaleemullah, S. (1991) Conversion of rice husk into amorphous silica and combustible gas, Energy Conservation Management, 1991, 32, pp. 565-570.
Luan, T. C. and Chou, T. C. (1990). Recovery of silica from the gasification of rice husk/coal in the presence of a pilot flame in a modified fluidized bed, Industrial Engineering and Chemical Research, 29, pp. 1922-1927.
Xiong, L., Sekiya, E. H., Sujaridworakun, P., Wada, S. and Kaito, K. (2009) Burning temperature dependence of rice husk ashes in structure and properties." Journals of Metals, Materials and Minerals 19, 2, pp. 95-99..
Real, C., Alcala, M. D. and Criado, J. M. (1996). Preparation of silica from rice husks, Journal of American Ceramic Society, 79, pp. 2012-2016.
Javed, S. H., Naveed, S., Feroze, N., Zafar, M., and Shafaq, M. Crystalline and amorphous silica from KMnO4 treated and untreated rice husk. Journal of Quality and Technology Management 6, 1 pp: 81-90.
Kalapathy, U., Proctor, A. and Schultz, J. (2000). A simple method for production of pure silica from rice hull ash. Bioresearch Technology, 73, pp. 257-262.
Ferreira, C. S., Santos, P. J., Bonacin, A., Passos, R. R.; and Pocrifka, L. A. (2015) Rice husk resuse in the preparation of SnO2/SiO2 Nanocomposite, Materials Research. 18, 3 pp: 639-643.
Tang, Q. and Wang, T. (2005) Preparation of silica aero-gel from rice hull ash by supercritical carbon dioxide drying. Journal of Supercrtiical Fluids, 2005, 35, pp. 91-94.
Van, Hai Le, Chi, Nhan ha Thuc and Huy, Ha Thuc.(2013). Synthesis of silica nanoparticles from vietnamese rice husk by sol-gel method, Nanoscale Research Letters, 2013, 8, 58, pp. 1-10.
Shelke, V. R., Bhagade, S. S. and Mandavgane, S. A. (2010). Mesoporous silica from rice husk ash. Chemical Reaction and Engineering Catalysis, 2010, 5, 2, pp. 63-67.
Ragini, P., Rajendra, D., and Jyotsna, M. (2014). Preparation of silica powder from rice husk, IOSR journal of applied chemistry, pp. 26-29. 2278-5736.
Daramola, O O, Oladele, I O and Adewuyi, B O. (2015). Preparation of submicron silica gel from rice husk ash using water shaker bath, Acta Tehnica Corviniensis, 2015, Vol. 8, 3, pp. 61-64.
Hinczewski, D. S., Hinczewski, M., Tepehan, F. Z., and Tepehan, G. G. (2005) Optical filters from SiO2 and TiO2 multi-layers using sol-gel spin coating method, Solar energy materials and solar cells, 87, pp. 181-196.
Lukowiak, A., Dylewicz, R., Patela, S., Srek, W., and Maruszewski, K. (2005). Optical properties of SiO2-TiO2 thin film waveguides obtained by the sol-gel method and their applications for sensing purposes, Optical Materials, 2005, Vol. 27, pp. 327-332.
Meille, V. (2006). Review on methods to deposit catalysts on structured surfaces. s. l.: Applied Catalysis A: General, 315, pp. 1-17.
Nikolic, V., Jokanovic, V., Radic, N., Grbic, B., Jokanovic, B., and Izvonar, D. (2009). SiO2 thin films obtained from silica sols by thermal spraying, Journal of optoelectronics and advanced materials, 2009, 11, 3, pp. 243-250.
Jokanovic, V., Spasic, A. M., and Uskokovic, D. (2004). Designing nanostructured hollow TiO2 spheres obtained by ultrasonic spray pyrolysis, Journal of colloids and interface science, 278, 2, pp. 342-352.
Messing, G L, Zhang, C and Jayanthi, G V. (1993). Ceramic powder synthesis by spray pyrolysis, Journal of the american ceramic society, 1993, 76, 11, pp. 2707-2726.
Xiangbo, S., Xu, J., Ming, L., Weidong, L., Xi, L., & Hua, Z. (2014). A review on development prospect of CZTS based thin film solar cells, International Journal of Photoenergy, 2014, pp. 1-11.
Xiangbo, S., Xu, J., Ming, L., Weidong, L., Xi, L., & Hua, Z. (2014). SiO2-TiO2 thin films obtained by sol-gel method, Sol-Gel Science and Technology, 167, 5.
Seitaro, M. and Mikiho, K. (1983) Low temperature chemical vapour deposition method utilising an electron cyclotron resonance plasma, Japanese Journal of Applied Physics, 22, 2.
Nan, J., Marie-Christine, H., Bernard, A., Thierry, k., Franccois, P., Didier, P., et al. (1992). Device Quality SiO2 deposited by Distributed Electron Cyclotron Resonance Plasma Enhanced Chemical Vapor Deposition without Substrate Heating, Japanese journal of applied physics, 31, 2.
Hirunlabh, J., Suthateeranet, S., Kirtikara, K., and Pynn, R. (1998). Development of a spray pyrolysis coating process for tin oxide film heat mirrors, Thammasat international journal of science and technology, 1998, Vol. 3, 2 pp. 1-20.
Irina, G., Alexandr, K., and Marina, K., (2018). Rice hulls as a renewable complex material resource, Resources.
Awizar, D. A., Othman, N. K., Azman, J., Daud, R. A., Abdulrahman, I., and AL-Hardan, N. H. (2013). Nanosilicate extraction of rice husk ash as green corrosion inhibitor, International Journal of Electrochemistry, 8, pp. 1759-1769.
Midhun, C. D., Begum, P. M., Joseph, R., Joseph, D., Prabith, K., and Eswarya, E. P. (2013). Synthesis, characterization and application rice husk nanosilica in natural rubber, International Journal of Science, Environment and Technology, 2, 5, pp. 1027-1035.
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