TY - JOUR
T1 - A model of curricular content for the educational reconstruction of Green Chemistry
T2 - the voice of Chilean science teachers and science education researchers
AU - González-García, Pía José
AU - Marbà-Tallada, Anna
AU - Espinet, Mariona
N1 - Publisher Copyright:
© 2023 The Royal Society of Chemistry.
PY - 2023/6/29
Y1 - 2023/6/29
N2 - The introduction of Green Chemistry (GC) into school science curriculum is considered an important step that encourages students to build connections between chemistry, other school subjects, and different aspects of their daily lives. The concepts associated with GC can be applied throughout the various levels of education with different degrees of complexity and provide a systematic approach to the teaching of science for sustainability. However, there is limited knowledge regarding the specific content that can be associated with the teaching of GC in primary and secondary schools in Chile. This study aims to provide a model of curricular science content for GC school education, utilizing the framework of Educational Reconstruction. The research question was “What links do in-service science teachers and science education researchers establish between GC and the school curriculum?” Specifically, we were interested in comparing science teachers’ and science education researchers’ perceptions of the links between GC and school science subject, school science contents, and crosscutting science concepts. A qualitative approach was employed for data collection and analysis, focusing on the written responses of 20 in-service science teachers and 20 science education researchers. We conclude the study by proposing an empirically based model of curricular content for GC school education (GCSE), comprising three dimensions: the multidisciplinary dimension of school science subjects represented here by chemistry, with the greatest presence, biology, physics, and geology; the intradisciplinary dimension of core disciplinary contents within each school subject; and the interdisciplinary dimension linked to a range of crosscutting concepts for GC.
AB - The introduction of Green Chemistry (GC) into school science curriculum is considered an important step that encourages students to build connections between chemistry, other school subjects, and different aspects of their daily lives. The concepts associated with GC can be applied throughout the various levels of education with different degrees of complexity and provide a systematic approach to the teaching of science for sustainability. However, there is limited knowledge regarding the specific content that can be associated with the teaching of GC in primary and secondary schools in Chile. This study aims to provide a model of curricular science content for GC school education, utilizing the framework of Educational Reconstruction. The research question was “What links do in-service science teachers and science education researchers establish between GC and the school curriculum?” Specifically, we were interested in comparing science teachers’ and science education researchers’ perceptions of the links between GC and school science subject, school science contents, and crosscutting science concepts. A qualitative approach was employed for data collection and analysis, focusing on the written responses of 20 in-service science teachers and 20 science education researchers. We conclude the study by proposing an empirically based model of curricular content for GC school education (GCSE), comprising three dimensions: the multidisciplinary dimension of school science subjects represented here by chemistry, with the greatest presence, biology, physics, and geology; the intradisciplinary dimension of core disciplinary contents within each school subject; and the interdisciplinary dimension linked to a range of crosscutting concepts for GC.
UR - http://www.scopus.com/inward/record.url?scp=85166252015&partnerID=8YFLogxK
UR - https://www.mendeley.com/catalogue/5ab5b891-549a-3835-b114-fffa20a341eb/
U2 - 10.1039/d3rp00063j
DO - 10.1039/d3rp00063j
M3 - Article
SN - 1756-1108
VL - 24
SP - 1190
EP - 1203
JO - Chemistry education research and practice
JF - Chemistry education research and practice
IS - 4
ER -