KnE Social Sciences
ISSN: 2518-668X
The latest conference proceedings on humanities, arts and social sciences.
Review of Chemistry Learning Modules on the Impact of Students' Literacy
Published date: Apr 03 2024
Journal Title: KnE Social Sciences
Issue title: International Conference on Mathematics and Science Education (ICMScE 2022): Learning Materials and Modules
Pages: 188–199
Authors:
Abstract:
This study aimed to review the chemistry learning module that impacts students’ literacy. The method used was document analysis and included articles between 2012 –2022. 20 articles, consisting of 17 journals and three proceedings, were analyzed. Eight articles were indexed by Scopus, and SINTA accredited 12. The main variables analyzed included module development methods, types of literacy skills, and the relationship between development methods and literacy skills. The results indicated nine methods: multi-representation-based modules, natural sciences, STEM, green chemistry, context-based learning, socio-scientific issues, cooperative learning, inquiry, and literacy-based. The types of literacy skills were grouped based on the competencies published by PISA, which included explaining phenomena (about 19 articles), designing investigations (about 18 articles), and evaluating contextual investigations (about 19 articles). The relationship between the development method and the type of literacy skills training shows a connection at each step. The modules developed have the impact of training and improving student literacy.
Keywords: chemistry, module, literacy
References:
[1] Chang R, Goldsby KA. Reactions in aqueous solutions. Chemistry. 10th ed. New York: McGraw-Hill; 2010.
[2] Harlen W. “The assessment of scientific literacy in the OECD/PISA project.,” p. 2001. https://doi.org/10.1007/0-306-47639-8_5.
[3] Rychen DS, Salganik LH. Key competencies for a successful life and well-functioning society. Hogrefe Publishing GmbH; 2003.
[4] OECD. Assessment and analytical framework. 2009.
[5] Pusat Penilaian Pendidikan Balitbang Kemendikbud. Laporan PISA Indonesia, pendidikan di Indonesia belajar dari hasil PISA. Jakarta; 2018.
[6] Permanasari A. Menyiapkan anak Indonesia menghadapi '21st century skills’ melalui penelitian berbasis literasi kimia. Prosiding Seminar Nasional Kimia dan Pendidikan Kimia. 2017 pp. 1–5.
[7] Wardhana SO, Nabilah S, Dewitasari AP, Hidayah R. E-Modul interaktif berbasis nature of science (nos) perkembagan teori atom guna meningkatkan level kognitif literasi sains peserta didik. UNESA Journal of Chemical Education. 2022;11(1):34–43.
[8] Yuliana IF, Sholichah N. Pengembangan modul termokimia berbasis multi representasi untuk melatih literasi kimia mahasiswa pada materi termokimia. Chemistry Education Practice. 2021;4(2):179–85.
[9] El Shinta Z, Sunyono S, Setyorini M. The validity of the online module of flipped classroom based on socioscientific issues towards students’ literacy skills. IOSR Journal of Research & Method in Education. 2020;10(2):51–56.
[10] Cigdemoglu C. Flipping the use of science-technology and society issues as triggering students’ motivation and chemical literacy. Science Education International. 2020;31(1):74–83.
[11] Wiyarsi A, Pratomo H, Priyambodo E, Kusumaningtyas H. Chemistry enrichment in tourism vocational school: The development and validation of food additives module. Journal of Physics: Conference Series. 2019: 012015. https://doi.org/10.1088/1742- 6596/1156/1/012015.
[12] Hoover GC, Dicks AP, Seferos DS. Upper-year materials chemistry computational modeling module for organic display technologies. J Chem Educ. 2021;98(3):805– 11.
[13] Cigdemoglu C, Geban O. Improving students’ chemical literacy levels on thermochemical and thermodynamics concepts through a context-based approach. Chem Educ Res Pract. 2015;16(2):302–17.
[14] Vaino K, Holbrook J, Rannikmäe M. Stimulating students’ intrinsic motivation for learning chemistry through the use of context-based learning modules. Chem Educ Res Pract. 2012;13(4):410–9.
[15] Shwartz Y, Ben-Zvi R, Hofstein A. Chemical literacy: what does this mean to scientists and school teachers? J Chem Educ. 2006;83(10):1557.
[16] Yuliani E, Wiji W, Mulyani S. Review of learning modules in chemistry education. Journal of Physics: Conference Series. 2021. https://doi.org/10.1088/1742- 6596/1806/1/012207.
[17] Accraf LB, Suryati S, Khery Y. Pengembangan e-modul interaktif berbasis android dan nature of science pada materi ikatan kimia dan gaya antar molekul untuk menumbuhkan literasi sains siswa. Hydrogen: Jurnal kependidikan kimia. 2018;6(2):133–141.
[18] Nurwanti H, Khery Y, Nufida BA. Pengembangan modul ikatan kimia dan bentuk molekul berorientasi nature of science untuk menumbuhkan literasi sains siswa. Hydrogen: Jurnal Kependidikan Kimia. 2018;6(2):81–99.
[19] Wardhana SO, Hidayah R. Interactive chemical bond electronic module based on Nature of Science (NOS) to improve scientific literacy knowledge. Journal of Science Education Research. 2022;6(1):15–23.
[20] Pane EP, Siahaan FE. Pengembangan modul pembelajaran berbasis STEM untuk meningkatkan kemampuan literasi sains mahasiswa pada mata kuliah kimia umum. Eksakta: Jurnal Penelitian dan Pembelajaran MIPA. 2022;7(1): 154–161.
[21] Hutomo BA, Saptono S, Subali B. Development of e-module based on science, technology, engineering, and mathematics (stem) to improve science literacy of junior high school students. Journal of Innovative Science Education. 2022;11(2):241–9.
[22] Prasetyo D, Marianti A, Alimah S. Improvement of Students’ science literacy skills using STEM-based e-modules. Journal of Innovative Science Education. 2021;10(2):216–21.
[23] Ahmadi HP, Suryati S, Khery Y. Pengembangan modul contextual teaching and learning (CTL) berorientasi green chemistry untuk pertumbuhan literasi sains siswa. Hydrogen: Jurnal Kependidikan Kimia. 2016;4(1):17–25.
[24] Kimianti F, Suryati S, Dewi CA. Pengembangan modul learning cycle 5E berorientasi green chemistry pada materi sistem koloid untuk peningkatkan literasi sains siswa. Hydrogen: Jurnal Kependidikan Kimia. 2016;4(2):70–9.
[25] Ballard J, Mooring SR. Cleaning our world through green chemistry: introducing high school students to the principles of green chemistry using a case-based learning module. J Chem Educ. 2021;98(4):1290–5.
[26] Luthfiana AD, Hidayah R. E-Module of chemistry practicum based on cooperative learning on salt hydrolysis material to improve students’ scientific literacy Prisma Sains: Jurnal Pengkajian Ilmu dan Pembelajaran Matematika dan IPA IKIP Mataram. 2022;10(1):36–47. https://doi.org/10.33394/j-ps.v10i1.4763.
[27] ArdinaTP, Retno, Saputro S, Ulfa M. Properness test: Development of an inquiry based learning module to improve science literacy in thermochemistry subject. The 8th annual basic science international conference: Coverage of Basic Sciences toward the World’s Sustainability challenges;202. East Java: AIP Publishing; 2021.
[28] Irwansyah FS, Lubab I, Farida I, Ramdhani MA. Designing interactive electronic module in chemistry lessons. Journal of Physics: Conference Series. 2017. https://doi.org/10.1088/1742-6596/895/1/012009.
[29] Gilbert JK, Treagust DF. Introduction: macro, submicro and symbolic representations and the relationship between them: Key models in chemical education. Multiple representations in chemical education. Springer; 2009. p. 1–8. https://doi.org/10.1007/978-1-4020-8872-8_1.
[30] Rahayu S. Mengoptimalkan aspek literasi dalam pembelajaran kimia abad 21. Prosiding Seminar Nasional Kimia UNY. pp. 183–188 (2017).