EDUCATIONAL UTILIZATION OF INNOVATIVE GREEN MATERIALS IN SECONDARY EDUCATION: THE CASE OF IONIC LIQUIDS
Abstract
Including modern scientific theories and technological applications in the educational process is a perennial request from researchers and educators. But in practice, there are several difficulties regarding this. The present work tries to bring to the educational foreground a new category of solvents with a "green" character, amazing properties, and environmentally friendly applications, the ionic liquids. In addition, proposals are made for integrating ionic liquids in education, at the school or university level.
Article Details
- Section
- 1. TEACHING AND LEARNING IN SCIENCE
- Categories
Downloads
References
Abid, M. N., & Musa, T. M. (2019). Retrieved June 6, 2023.
Badgujar, K. C., & Bhanage, B. M. (2015). Factors governing dissolution process of lignocellulosic biomass in ionic liquid: Current status, overview and challenges. Bioresource technology, 178, 2-18.
Hernani, H., Mudzakir, A., & Sumarna, O. (2016). Ionic Liquids Material as Modern Context of Chemistry in School. Jurnal Pendidikan IPA Indonesia, 5(1), 63-68.
Hernani, H., Mudzakir, A., & Sumarna, O.. (2017, February). Ionic Liquids as a Basis Context for Developing High school Chemistry Teaching Materials. In Journal of Physics: Conference Series (Vol. 812, No. 1). IOP Publishing.
Mudzakir, A., Hernani, H., Widhiyanti, T., & Sudrajat, D. P. (2017, August). Contribution from philosophy of chemistry to chemistry education: In a case of ionic liquids as technochemistry. In AIP Conference Proceedings (Vol. 1868, No. 1). AIP Publishing.
Pernaa, J., Kämppi, V., & Aksela, M. (2022). Supporting the Relevance of Chemistry Education through Sustainable Ionic Liquids Context: A Research-Based Design Approach. Sustainability, 14(10), 6220.
Unesco. (1997). Educating for a sustainable future: a transdisciplinary vision for concerted action; international conference; Thessaloniki, 8-12 December 1997. Unesco.
Xie, W., & Wang, H. (2021). Grafting copolymerization of dual acidic ionic liquid on core-shell structured magnetic silica: A magnetically recyclable Brönsted acid catalyst for biodiesel production by one-pot transformation of low-quality oils. Fuel, 283, 118893. https://doi.org/10.1016/j.fuel.2020.118893