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INDONESIA
Jurnal Tadris Kimiya
Published by Universitas Islam Negeri Sunan Gunung Djati Bandung
ISSN : 25276816     EISSN : 25279637     DOI : 10.15575/jtk.v7
Core Subject : Science, Education,
Chemistry Education
Tadris Kimiya Journal is a Journal published by Department Chemical Education, Tarbiyah & Keguruan Faculty UIN SGD Bandung, has a scope of discussion on education and chemistry learning.
Arjuna Subject : Kimia(semua kategori) - Kimia (Lain-Lain)
Articles 238 Documents
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Fostering Environmental Knowledge and Literacy with Natural Products Experiment Activity Worksheets Nuswowati, Murbangun; Kusmanto, Harjito; Harjono, Harjono; Nuryanto, Nuryanto; Zahro, Ainu Ilmiatuz; Sharif, Aisyah Mohamad
Jurnal Tadris Kimiya Vol 9 No 1 (2024)
Publisher : Department of Chemistry Education, UIN Sunan Gunung Djati Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15575/jtk.v9i1.28263

Abstract

This research aims to improve student environmental knowledge and literacy with natural products experiment activity worksheets. The methods used in this research are pre-experimental. The subjects of this research are 15 students from an Islamic high school. The research results show that natural products experiment activity worksheets effectively improve students' learning outcomes. The research results indicate that the pre-test results obtained an average score of 50.8, indicating that students needed help understanding the material before using natural products' experiment activity worksheets. Post-test results showed an average score of 80.5, indicating that students experienced increased learning outcome scores. The average normalized gain score is 0.59, indicating a medium increase in chemistry learning outcomes. The self-assessment questionnaire on environmental literacy, conducted after using the integrated natural products experiment activity worksheets, showed that knowledge had an average score of 4.33 and was rated as excellent, behavior had an average score of 4.31 and was rated as good, and attitude had an average score of 4.37 and was also rated as good. Overall, students' environmental literacy was rated as outstanding, with an average score of 86.74%.
Inquiry Based Learning STEM Teaching Materials to Improve Students’ Thinking Skills in Stoichiometry Panggabean, Freddy Tua Musa; Silitonga, Pasar Maulim; Sutiani, Ani; Purba, Jamalum; Gultom, Risdo
Jurnal Tadris Kimiya Vol 8 No 2 (2023)
Publisher : Department of Chemistry Education, UIN Sunan Gunung Djati Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15575/jtk.v8i2.28870

Abstract

In stoichiometry learning process, mostly educators focus on calculations. Students are not invited to think more critically about stoichiometry application in life. This constraint makes teachers have to develop new learning models, including Inquiry Based Learning (IBL) model, and Science, Technology, Engineering, Mathematics (STEM) based on chemical literacy. This study aims to develop general chemistry teaching materials on stoichiometry using IBL and STEM models based on chemical literacy that are feasible (valid) and capable of improving students' LOTS and HOTS abilities. The development model used is the ADDIE model, with research subjects of 34 students. The result shows that stoichiometry teaching materials using the IBL STEM model based on chemical literacy are valid (feasible) to be applied in learning with an average score of 4.42 for the material aspect and 4.55 for the design aspect. The developed teaching materials have been proven to significantly improve students’ LOTS and HOTS abilities.
Explorative Research Course: Recovering Rare Earth Elements from Electronic Waste Using Deep Eutectic Solvents Kisworo, Banu; Mudzakir, Ahmad; Liliasari, Liliasari; Permanasari, Anna
Jurnal Tadris Kimiya Vol 8 No 2 (2023)
Publisher : Department of Chemistry Education, UIN Sunan Gunung Djati Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15575/jtk.v8i2.30087

Abstract

This study aims to demonstrate how a course design approach based on explorative research involving systems thinking can be implemented by recovering Rare Earth Elements (REEs) using Deep Eutectic Solvents (DES). The method used in this research is Design-Based Research (DBR). The instruments used were questions regarding the measurement of leaching samples from results/characterization, short questions about concept maps, and student response questionnaires. Data from measurements of leaching samples was measured using a Fourier Transform Infrared Spectrometer (FTIR), data about concept maps was measured by the number of component and process concepts in the context of electronic waste recycling that students were able to identify, and student response data was measured using a Likert scale. Based on the research results, recovery of REEs can be done using DES. It can be shown by a shift in the peak vibration of 497.65 cm-1 from the sample before leaching to a vibration of 449.43 cm-1 after leaching. In addition, this study yields new insights into the perceptions of future pre-service chemistry teachers regarding the possibility of new types of DES in the context of chemistry learning. According to pre-service chemistry teachers, recovering REEs from electronic waste and applying DES are interesting as a new context for laboratory learning. Context-based design of research activities can enhance system thinking and interest in chemistry. The results of study showed increased student’s systems thinking abilities, as shown by the component and process concepts that emerged from the pre-test by 652 concepts while the post-test increased by 1208 concepts.
Development of Standard Assessment for Understanding Green Chemistry Principles Based on Unity of Science Rahmawati, Atik; Mulyanti, Sri; Ummah, Khoirul
Jurnal Tadris Kimiya Vol 9 No 1 (2024)
Publisher : Department of Chemistry Education, UIN Sunan Gunung Djati Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15575/jtk.v9i1.30276

Abstract

Understanding green chemistry is a crucial aspect for chemistry teacher graduates, as it equips them with the knowledge and skills to promote sustainable practices, minimize environmental impact, and inspire the next generation of students to engage in eco-friendly scientific innovation. This research is dedicated to developing a standard assessment for understanding Green Chemistry based on the Unity of Science (UoS), which is grouped into three categories: reagents, reaction processes, and reaction products. The research uses a mixed methods design with a triangulation model. A significant part of the research process is the validation of the feasibility of the instrument developed, which was done by five chemical experts. The multi-rater responses obtained were then analyzed using the feasibility criteria of the processed Rasch results. In the trial process, 40 students from the Chemistry Education program were selected as research subjects. The results showed that the reliability of the questions was 0.87, with an item separation level of 2.54. This reliability value of 0.87 indicates that the developed questions are of excellent quality and can be used as a standard for measuring understanding of Green Chemistry based on Unity of Science.
Designing a Thermochemistry E-Module Based on the Trait Treatment Interaction Educational Model for Madrasah Aliyah Students Aswirna, Prima; Wardani, Titisma; Asrar, Allan; Fahmi, Reza; Fahmi, Danial Muhammad
Jurnal Tadris Kimiya Vol 9 No 1 (2024)
Publisher : Department of Chemistry Education, UIN Sunan Gunung Djati Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15575/jtk.v9i1.30924

Abstract

Planning and carrying out investigations (PCOI) among students are still low, and teachers pay less attention to differences in the abilities of each student, so they have not achieved optimal results. This research aims to develop of a chemistry e-module using the trait treatment interaction (TTI) model to increase valid, practical, and effective's PCOI capabilities. TTI is considered an ideal learning model because it can accommodate and value individual differences among students. The research framework employed in this study follows a research and development method with a define, design, development, and disseminate (4D) model. The results indicate that the high validity level achieved an average score of 84.3% in terms of materials, language, and media aspects. The practicality test of the products also received an average score of 86.2%. The product's effectiveness is categorized as very effective, with students' test results averaging 82.3%. The e-module is deemed valid, practical, and effective in enhancing PCOI capabilities.
Innovative Learning Approaches: Quantum Chemistry Board Games for Education and Computational Thinking Strategies Ilmiyati, Dian; Risky, Elsyafahriza; Chaeruman, Uwes Anis; Paristiowati, Maria; Istianah, Istianah
Jurnal Tadris Kimiya Vol 9 No 1 (2024)
Publisher : Department of Chemistry Education, UIN Sunan Gunung Djati Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15575/jtk.v9i1.31609

Abstract

Computational thinking (CT) learning is becoming increasingly important in today's education in developing critical thinking and problem-solving skills. The development of board games is one of the techniques used to hone problem-solving skills by integrating CT into the learning process. Through this innovative learning approach, abstract concepts in atomic structure and the periodic system of elements are integrated into components of the game. The research aims to improve students' critical thinking and problem-solving skills in challenging chemistry content such as quantum numbers. This research includes the design, development, and implementation stages of board games in learning. The N-gain score of 0.7 is achieved, indicating an improvement in the effectiveness of learning chemistry subjects on atomic structure and the periodic system of elements through the designed board games. In addition, students provide positive feedback regarding engagement and interest in learning through this interactive approach. These results indicate that the use of CT-integrated board games can be an effective tool for teaching chemistry materials at the high school level while promoting students' CT skills. Well-designed board games can be used as effective learning tools to improve student's critical thinking and problem-solving skills in quantum numbers.
Inquiry-Based E-Module with an Ethno-STEM Approach to Develop Sustainable Environmental Literacy Skills Sasmita, Media; Sudarmin, Sudarmin; Prasetya, Agung Tri; Zaim, Haniza Hanim binti Mohd
Jurnal Tadris Kimiya Vol 9 No 1 (2024)
Publisher : Department of Chemistry Education, UIN Sunan Gunung Djati Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15575/jtk.v9i1.32342

Abstract

Environmental literacy is one of the keys to support the success of sustainable development goals (SDGs). This research aims to develop an inquiry e-module with an ethno-STEM approach to the concept of volatile aromatic compounds. The research subjects involved 46 students in the chemistry education study program who took the course on organic chemistry of natural substances. Data collection was carried out using an environmental literacy questionnaire covering four domains (knowledge, cognitive skills, attitudes and behavior). The results showed that the validity of e-modules in terms of material and media was 82.5% and 93.25%, respectively, which were categorized as very valid. The results of the environmental literacy test indicate that the average scores for knowledge, attitude, cognitive skills, and behavior were 45.91, 46.46, 51.32, and 53.24. All four domains fall within the high category. The inquiry e-module with an ethno-STEM approach is very suitable for developing environmental literacy skills.
Chemo-Entrepreneurship (CEP) Essentials: Practical Videos on Functional Group Material via YouTube Umah, Nurul; Kamaludin, Agus
Jurnal Tadris Kimiya Vol 9 No 1 (2024)
Publisher : Department of Chemistry Education, UIN Sunan Gunung Djati Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15575/jtk.v9i1.33606

Abstract

Entrepreneurship is crucial for students to navigate intense competition in the globalized era. Chemo-entrepreneurship (CEP) integrates chemistry education with the production of marketable products, which can serve as practical videos to illustrate the application and relevance of functional group materials in daily life, making chemistry learning more impactful when applied practically. This research aims to develop YouTube content in the form of practical videos on functional group material containing chemo-entrepreneurship. The method used in this research is research and development (R&D) with a define, design, develop, and disseminate (4-D) model. The products developed are assessed by material, media, and educational practitioner experts using product quality assessment sheets and student responses. The percentage of assessments from material, media experts, and reviewers are 87, 96, and 91%, respectively. Students responded positively to the practical video that was developed and obtained a percentage of 97%. Assessments from experts, reviewers, and students are in the very good category. Based on the data obtained, the practical video developed is suitable for use as an alternative media in practical learning of functional group material to improve students' entrepreneurial spirit.
PENGEMBANGAN MODUL STRUKTUR ATOM TERINTREGRASI AUGMENTED REALITY Widiani, Astry Risqi; Prasetya, Agung Tri; Kurniawan, Cepi
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.v10i2.40730

Abstract

Education in Indonesia is increasingly oriented toward 21st-century learning, which requires students to develop skills that enable them to face global challenges and compete in a rapidly changing world. This study aimed to develop and evaluate the feasibility of an augmented reality (AR)-integrated atomic structure module as an alternative learning resource in chemistry education. The research adopted a development design based on the 4D model—define, design, develop, and disseminate. Product feasibility was evaluated through expert validation involving material and media specialists, as well as assessments by chemistry teachers and students. The findings revealed that the AR-based atomic structure module is highly feasible and pedagogically appropriate as a learning resource. Validation results indicated average scores of 98% from material experts and 96% from media experts. Readability tests with students yielded a score of 93% (very good), while teachers rated the module’s practicality at 97% (very feasible). These results suggest that the developed module not only provides accurate content and engaging visualizations but also enhances students’ comprehension, motivation, and independent learning. Therefore, the AR-based module can serve as an innovative and effective tool for chemistry learning, particularly in understanding abstract concepts such as atomic models, electron configurations, and orbitals. Furthermore, this study contributes to the growing body of research on AR applications in science education by demonstrating its potential to improve learning outcomes and foster 21st-century skills.
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.

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