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All Journal Jurnal Tadris Kimiya Jurnal Abdimas Ilmiah Citra Bakti
Nst., Mutiara Agustina
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Arts Humanities Chemistry Computer Science & IT Education Environmental Science

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PEMANFAATAN IPTEKS DALAM MENDUKUNG PEMBELAJARAN HOTS DI SMK YPP PROF. DR. H. MOHD. HATTA STABAT Nst., Mutiara Agustina; Sutiani, Ani; Dibyantini, Ratu Evina; Sari, Dwy Puspita; Syafriani, Dewi; Ardila, Mutia; Samosir, Rafidah Almira
Jurnal Abdimas Ilmiah Citra Bakti Vol. 6 No. 4 (2025)
Publisher : STKIP Citra Bakti

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.38048/jailcb.v6i4.5944

Abstract

SMK Swasta YPP Prof. Dr. H. Mohd. Hatta merupakan sekolah kejuruan yang baru berdiri kurang dari tiga tahun di Kabupaten Langkat, Provinsi Sumatera Utara, sehingga masih menghadapi permasalahan dalam optimalisasi proses pembelajarannya. Mitra mengalami kendala dalam menerapkan pembelajaran berbasis Higher Order Thinking Skills (HOTS), terutama terkait pemanfaatan IPTEKS sebagai pendukung pengembangan kemampuan berpikir tingkat tinggi siswa. Kegiatan Pengabdian kepada Masyarakat (PKM) ini bertujuan meningkatkan pengetahuan dan keterampilan guru serta stakeholder sekolah dalam menerapkan pembelajaran HOTS melalui pemanfaatan IPTEKS secara efektif. Mitra kegiatan adalah guru dan stakeholders SMK YPP Prof. Dr. H. Mohd. Hatta yang berjumlah 20 orang. Metode pelaksanaan meliputi sosialisasi konsep HOTS, edukasi penggunaan IPTEKS dalam pembelajaran, demonstrasi media pembelajaran digital, dan pendampingan praktik penerapan. Hasil kegiatan menunjukkan peningkatan pemahaman peserta terhadap strategi dan media pembelajaran berbasis IPTEKS, ditandai dengan antusiasme tinggi dan kemampuan peserta dalam menyusun rancangan pembelajaran HOTS sederhana. Tim juga melakukan evaluasi untuk memastikan keberlanjutan penerapan pembelajaran berbasis HOTS di sekolah. Kesimpulannya, kegiatan PKM ini efektif dalam memperkuat kemampuan guru dalam memanfaatkan IPTEKS untuk mendukung implementasi pembelajaran HOTS, serta berkontribusi pada peningkatan kualitas proses pembelajaran di SMK YPP Prof. Dr. H. Mohd. Hatta.
Enhancing Creative Thinking in Electrochemistry through a Science Literacy Integrated STEM-PBL Model Sutiani, Ani; Dibyantini, Ratu Evina; Nst., Mutiara Agustina; Sari, Dwy Puspita
Jurnal Tadris Kimiya Vol 10 No 2 (2025)
Publisher : Department of Chemistry Education, UIN Sunan Gunung Djati Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15575/jtk.v10i2.41486

Abstract

Creative thinking is an essential learning outcome in undergraduate chemistry education, particularly in electrochemistry, where students are required to integrate conceptual understanding with problem solving and real world applications.  Integrating science literacy within a Science, Technology, Engineering, and Mathematics–Problem Based Learning (STEM-PBL) framework offers a practical instructional approach to address this challenge by situating electrochemical concepts in authentic problem contexts. This study analysed the effectiveness of a science literacy integrated STEM-PBL model in enhancing undergraduate students’ creative thinking skills in an electrochemistry course. A quantitative quasi experimental design was employed, involving an experimental group taught using the science literacy integrated STEM-PBL model and a control group receiving traditional instruction. Students’ creative thinking skills were measured before and after instruction using a validated assessment instrument. Instructional effectiveness was evaluated by comparing normalized gain (N-gain) scores between the two groups. The results show that students who participated in the STEM-PBL learning environment achieved a substantially higher N-gain score (75.47%) than those in the control group (49.96%). These findings indicate that integrating science literacy into STEM-PBL activities significantly enhances students’ creative thinking skills in electrochemistry learning. The results have important implications for chemistry instruction. They suggest that incorporating science literacy oriented, problem based STEM activities can provide instructors with an effective strategy to promote creative thinking and deepen students’ understanding of electrochemical concepts. This approach may support the design of more engaging and meaningful electrochemistry learning experiences in undergraduate chemistry classrooms.
Co-Authors Ardila, Mutia Dewi Syafriani, Dewi Ratu Evina Dibyantini Samosir, Rafidah Almira Sari, Dwy Puspita Sutiani, Ani