Augmented Reality (AR) technology allows interaction between the real world and objects in the virtual world in a three-dimensional form. With these advantages, AR will be a learning media that can increase students' enthusiasm for learning chemistry, especially on abstract chemistry concepts, and require the right learning media to visualize them. This type of research is Educational Design Research with the Plomp development model. The subjects of this study are UNP chemistry lecturers, chemistry teachers, and students at three senior high schools in Sumatera Barat. The object of this study is an augmented reality integrated learning media. The research instruments used were a needs analysis questionnaire, a validity test questionnaire, and a practicality test questionnaire. The data analysis technique uses the Aiken'V formula. The study results show that the developed learning media is included in the valid and practical categories with the validity values of content, construction, and quality respectively being 0.87; 0,85; and 0.85. Meanwhile, teachers' and students' average practicality score index results were 0.97 and 0.92. Thus, the learning media integrated with augmented reality technology in the chemistry concept for the E phase of SMA/MA chemistry has been successfully developed, validated, and practically used in learning.

learning media, augmented reality, chemistry and matter

Aiken, L. R. (1980). Content validity and reliability of single items or questionnaires. Educational and Psychological Measurement, 40(4), 955–959.

Almubarak, A., Nawidi, M. F., Nurrusshobah, N., & Sadiah, S. D. (2021). Validitas & Praktikalitas: Modul Kibas Asah (Kimia Berbasis Lahan Basah) Terintegrasi AR-Sparkol Pada Materi Larutan Penyangga sebagai Media Pembelajaran Inovatif. Journal of Mathematics Science and Computer Education, 1(1), 1.

Alzahrani, N. M. (2020). Augmented reality: A systematic review of its benefits and challenges in e-learning contexts. Applied Sciences (Switzerland), 10(16).

Aris, A., Fitria, A., & Ihtisyamuddin, L. (2020). Chemistry Structure Sheet sebagai Media Pembelajaran Kimia Berbasis Augmented Reality pada Materi Struktur Atom. Jurnal Pendidikan Matematika Dan Sains, 8(2), 77–81.

Arman Berkat Cristian Waruwu, & Debora Sitinjak. (2022). Penggunaan Multimedia Interaktif dalam Meningkatkan Minat Belajar Siswa pada Pembelajaran Kimia. Jurnal Pendidikan Mipa, 12(2), 298–305. https://doi.org/10.37630/jpm.v12i2.589

Chen, Y., Wang, Q., Chen, H., Song, X., Tang, H., & Tian, M. (2019). An overview of augmented reality technology. Journal of Physics: Conference Series, 1237(2). https://doi.org/10.1088/1742-6596/1237/2/022082

Clark, R. C., & Lyons, C. (2011). Graphics for Learning: Proven Guidelines for planning, Designing, and Evaluating Visuals in Training Materials. In JAMA Pediatrics (Vol. 171, Issue 6). https://doi.org/10.1001/jamapediatrics.2016.4969

Fajari, Sl. E. W., Dayurni, P., & Rahayu, A. (2023). Meta-Analysis Study: The Effect of Augmented Reality on Student Learning Outcomes. 4(1), 286–295.

Fani, V. G., & Mawardi, M. (2022). Flipped classroom learning system based on guided inquiry using moodle on acid-base solutions. Jurnal Pijar Mipa, 17(3), 361–368. https://doi.org/10.29303/jpm.v17i3.3476

Fitria, T. N. (2023). Augmented Reality (AR) and Virtual Reality (VR) Technology in Education: Media of Teaching and Learning: A Review. International Journal of Computer and Information System (IJCIS) Peer Reviewed-International Journal, 04(01), 2745–9659.

Fombona-Pascual, A., Fombona, J., & Vicente, R. (2022). Augmented Reality, a Review of a Way to Represent and Manipulate 3D Chemical Structures. Journal of Chemical Information and Modeling, 62(8), 1863–1872. https://doi.org/10.1021/acs.jcim.1c01255

Hanika, S., & Guspatni, G. (2023). Development of learning media powerpoint-iSpring integrated with prompting questions on stoichiometry topics. Jurnal Pijar Mipa, 18(1), 57–64. https://doi.org/10.29303/jpm.v18i1.4634

Hidayat, F. A., Irianti, M., & Faturrahman. (2020). Analisis Miskonsepsi Siswa dan Faktor Penyebabnya pada Pembelajaran Kimia di Kabupaten Sorong. Jurnal Inovasi Pembelajaran IPA, 1(1), 1–8.

Hikmah, M. M., Yamtinah, S., & Mahardiani, L. (2022). CHEMAR (Chemistry Augmented Reality) Pada Sistem Periodik Unsur Sebagai Media Interaktif Untuk Meningkatkan Kemampuan Berpikir Abstrak Siswa. Jurnal Pendidikan Kimia, 11(2), 221–230. https://doi.org/10.20961/jpkim.v11i2.66618

Jang, J., Ko, Y., Shin, W. S., & Han, I. (2021). Augmented Reality and Virtual Reality for Learning: An Examination Using an Extended Technology Acceptance Model. IEEE Access, 9, 6798–6809. https://doi.org/10.1109/ACCESS.2020.3048708

Marlina, Rahim, A., Awaliyah, M., Irhas, & Patty, E. N. S. (2023). Analisis Bibliometrik pada Augmented Reality dalam Pendidikan: Bagaimana Pemetaannya? Upgrade: Jurnal Pendidikan Teknologi Informasi, 1(1), 33–41.

Munti, N. Y. S., & Syaifuddin, D. A. (2020). Analisa Dampak Perkembangan Teknologi Informasi Dan Komunikasi Dalam Bidang Pendidikan. Jurnal Pendidikan Tambusai, 4(2), 1799–1805. https://jptam.org/index.php/jptam/article/view/655

Ningrum, V. F., Sumarni, W., & Cahyono, E. (2021). Development of Augmented Reality-Based Learning Media on Concept of Hydrocarbon to Improve Multi-representation Ability. Jurnal Penelitian Pendidikan IPA, 7(SpecialIssue), 256–265.

Notanubun, Z. (2019). Pengembangan Kompetensi Profesionalisme Guru di Era Digital (Abad 21). Jurnal Bimbingan Dan Konseling Terapan, 4(1), 103–118.

Permatasari, M. B., Rahayu, S., & Dasna, I. W. (2022). Chemistry Learning Using Multiple Representations: A Systematic Literature Review. Journal of Science Learning, 5(2), 334–341. https://doi.org/10.17509/jsl.v5i2.42656

Plomp, T., & Nieveen, N. (2013). Educational Design Research Educational Design Research. In Netherlands Institute for Curriculum Development: SLO. Netherlands Institute for Curriculum Development (SLO).

Pradana, R. W. (2020). Penggunaan Augmented Reality Pada Sekolah Menengah Atas Di Indonesia. Jurnal Teknologi Pendidikan : Jurnal Penelitian Dan Pengembangan Pembelajaran, 5(1), 97. https://doi.org/10.33394/jtp.v5i1.2857

Prihadi, B. (2019). Semantic Differential Sebagai Alat Ukur Respons Estetik Siswa. Statistika, 53(9), 1689–1699.

Ramadani, R., Ramlawati, & Arsyad, M. (2020). Pengembangan Modul Pembelajaran Kimia Berbasis Augmented Reality. Chemistry Education Review, Pendidikan Kimia PPs UNM, 3(2), 205–220. https://doi.org/https://doi.org/10.26858/cer.v3i2.13315

Rokhim, D. A., Rahayu, S., & Dasna, I. W. (2023). Analisis Miskonsepsi Kimia dan Instrumen Diagnosisnya: Literatur Review. Jurnal Inovasi Pendidikan Kimia, 17(1), 17–28. https://doi.org/10.15294/jipk.v17i1.34245

Sinaga, M. S., Situmorang, M. S., & Hutabarat, W. H. (2019). Implementation of innovative learning material to improve students competence on chemistry. Indian Journal of Pharmaceutical Education and Research, 53(1), 28–41.

Smaldino, S. E., & Lowther, D. L. (2012). Instructional Technology and Media For Learning.

Sunarti, S. (2022). Pembuatan Media Pembelajaran Menggunakan Canva Pada Pelatihan Media Pembelajaran Berbasis Teknologi Informasi Dan Komunikasi Di Kabupaten Muba. Jurnal Perspektif, 15(1), 96–105. https://doi.org/10.53746/perspektif.v15i1.71

Suparwati, N. M. A. (2022). Analisis Reduksi Miskonsepsi Kimia dengan Pendekatan Multi Level Representasi: Systematic Literature Review. Jurnal Pendidikan Mipa, 12(2), 341–348. https://doi.org/10.37630/jpm.v12i2.591

Supriadi, S., Wildan, W., Siahaan, J., Muntari, M., & Haris, M. (2023). Pengembangan Media Pembelajaran Kimia Berbasis Teknologi Augmented Reality (AR) untuk Melatih Model Mental Siswa SMA di Daerah Geopark Rinjani. Chemistry Education Practice, 6(1), 8–14. https://doi.org/10.29303/cep.v6i1.4206

Yamtinah, S., Susanti VH, E., Saputro, S., Ariani, S. R. D., Shidiq, A. S., Sari, D. R., & Ilyasa, D. G. (2023). Augmented reality learning media based on tetrahedral chemical representation: How effective in learning process? Eurasia Journal of Mathematics, Science and Technology Education, 19(8), 23-13.