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Improving Students' Achievement in Organic Chemistry: A Systematic Review of Experimental Studies

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  • Author(s): Asyti Febliza (ORCID Asyti Febliza (ORCID 0000-0002-9926-1117); Asep Kadarohman (ORCID Asep Kadarohman (ORCID 0000-0003-2044-631X); Siti Aisyah (ORCID Siti Aisyah (ORCID 0000-0003-2831-6173); Norazilawati Abdullah (ORCID Norazilawati Abdullah (ORCID 0000-0002-9755-4629); Susilawati (ORCID Susilawati (ORCID 0000-0003-4358-8361)
  • Language:
    English
  • Source:
    Journal of Turkish Science Education. 2025 22(2):393-418.
  • Publication Date:
    2025
  • Document Type:
    Journal Articles
    Information Analyses
  • Additional Information
    • Availability:
      Journal of Turkish Science Education. e-mail: editortused@gmail.com; Web site: https://www.tused.org/
    • Peer Reviewed:
      Y
    • Source:
      26
    • Education Level:
      Secondary Education
      Higher Education
      Postsecondary Education
      High Schools
    • Subject Terms:
      Organic Chemistry; Science Instruction; Science Achievement; Teaching Methods; Cooperative Learning; Problem Based Learning; Group Instruction; Learning Strategies; Electronic Learning; Technology Uses in Education; Secondary School Science; College Science; High Schools
    • ISSN:
      1304-6020
    • Abstract:
      Organic chemistry is a cognitively demanding subject with persistently low student achievement. This review aimed to identify instructional strategies and educational technologies used to improve learning outcomes in organic chemistry across educational levels and learning environments. A systematic review of 40 experimental studies (2014-2023) was conducted using PRISMA guidelines. The analysis revealed that group-based learning, such as cooperative and problem-based learning, is the most frequently used instructional approach to enhance academic performance and retention. Task-based and individual learning strategies were also reported but less common. E-learning technologies were most widely used in high school and classroom settings, while multimedia tools were more prevalent in higher education and laboratory contexts. Representational competence was primarily supported through the use of models. The findings suggest that instructional methods and technologies should be aligned with students' learning needs, content complexity, and context. These results offer practical guidance for improving cognitive outcomes in organic chemistry education.
    • Abstract:
      As Provided
    • Publication Date:
      2025
    • Accession Number:
      EJ1478573