This study aims to produce SETS-based teaching materials in acid-base concept that can foster students' critical thinking skills and establish their morale. This study is Research and Development (R & D) refers to the Borg and Gall model, which has been modified into five stages; preliminary study, preparation of product draft, validation and revision of product draft, legibility test, and product draft revision. As the instrument, this study was using a questionnaire about resistances and obstacles, observation sheets in learning, interview guidelines, validation sheets of teaching materials draft, and legibility response questionnaires. Data obtained from questionnaires, learning observation sheets, and interview guidelines were analyzed descriptively qualitatively to get the representation of the learning process that has been conducted so far. The validation sheet and legibility response questionnaire were analyzed quantitatively to determine the validity and legibility levels of teaching materials. The results of expert validation show that the developed teaching materials have a direct link between science, the environment, technology and society in solving problems related to daily life and the students as users give positive responses to the developed teaching materials in terms of content, appearance, novelty, problems, direction and work instructions. Thus, teaching materials developed are valid and proper to be used in the learning process

SETS; Acid-Base Concept; Critical Thinking Skills; Moral

Abungu, H. E. O., Okere, M. I. O., & Wachanga, S. W. (2014). Effect of Science Process Skills Teaching Strategy on Boys and Girls’ Achievement in Chemistry in Nyando District, Kenya. Journal of Education and Practice, 5(15), 42–48. https://www.iiste.org/Journals/index.php/JEP/article/view/13011

Amril, M. (2012). Integrasi Sains Dan Values Dalam Pendidikan: Sebuah Upaya Metodologis Pembelajaran. Conference Proceedings: Annual International Conference on Islamic Studies (AICIS) XII 1997–2019. http://digilib.uinsby.ac.id/7613/

Bernadette, I., & Rosario, D. (2008). Science, Technology, Society and Environment (STSE) Approach in Environmental Science for Nonscience Students in a Local Culture. DDC Professional Journal, 1(1), 1–1. http://ejournals.ph/form/cite.php?id=700

Bretz, S. (Ed.). (2008). Chemistry in the National Science Education Standards: Models for Meaningful Learning in the High School Chemistry Classroom (2 edition). Washington DC: America Chemical Society.

Christiana, E., Martoredjo, N. T., & Chairiyani, R. P. (2013). Pemetaan Perkembangan Moral Mahasiswa Binus ditinjau dari Perspektif Kohlberg (Studi Kasus Terhadap 10 Mahasiswa di Kelas 04 Paf). Humaniora, 4(2), 1116–1124. https://doi.org/10.21512/humaniora.v4i2.3552

Erika, F., & Prahani, B. (2017). Innovative Chemistry Learning Model to Improve Argumentation Skills and Self-Efficacy. IOSR Journal of Research & Method in Education (IOSRJRME), 07(1), 62–68. https://doi.org/10.9790/7388-0701026268

Harackiewicz, J., & Hulleman, C. (2009). The Importance of Interest: The Role of Achievement Goals and Task Values in Promoting the Development of Interest. Social and Personality Psychology Compass, 4(1), 42–52. https://doi.org/10.1111/j.1751-9004.2009.00207.x

Holbrook, J. (2005). Making chemistry teaching relevant. Chemical Education International, 6(1), 1–12. https://old.iupac.org/publications/cei/vol6/06_Holbrook.pdf

Ibrahim, M. (2014). Model pembelajaran inovatif melalui pemaknaan (belajar perilaku positif dari alam). Surabaya: Unesa University Press.

Kanzal, V. R., G, S., & Goswami, L. (2016). Moral Education: Current Values in Students and Teachers’ Effectiveness in Inculcating Moral Values in Students. International Journal of Indian Psychology, 4(1), 174–187. https://doi.org/10.25215/0401.138

Karakoc, M. (2016). The Significance of Critical Thinking Ability in terms of Education. International Journal of Humanities and Social Science, 6(7), 81–84. https://www.ijhssnet.com/journal/index/3556

Kasim, N., & Che Ahmad, C. N. (2018). PRO-STEM Module: The Development and Validation. International Journal of Academic Research in Business and Social Sciences, 8(1), 728–739. https://doi.org/10.6007/IJARBSS/v8-i1/3843

Kohlberg, L. (1995). Tahap-tahap perkembangan moral diterjemahkan oleh John de Santo dan Agus Cremers. Yogyakarta: Kanisius.

Kok, L. (2014). A science-technology-society approach to teacher education for the foundation phase: Students’ empiricist views. South African Journal of Childhood Education, 4(1), 16. https://doi.org/10.4102/sajce.v4i1.180

Li, Y. W. (2016). Transforming Conventional Teaching Classroom to

Learner-Centred Teaching Classroom Using Multimedia-Mediated Learning Module. International Journal of Information and Education Technology, 6(2), 105–112. https://doi.org/10.7763/IJIET.2016.V6.667

Mainali, B. P. (2012). Higher Order Thinking in Education. Academic Voices: A Multidisciplinary Journal, 2(1), 5–10. https://doi.org/10.3126/av.v2i1.8277

Markiah, D., Agustini, R., & Koestiari, T. (2017). Model Pembelajaran Pemaknaan Pada Materi Sistem Organisasi Kehidupan Untuk Meningkatkan Hasil Belajar Dan Menumbuhkan Karakter Siswa Smp. JPPS (Jurnal Penelitian Pendidikan Sains), 4(2), 591–605. https://doi.org/10.26740/jpps.v4n2.p591-605

Mendiknas. (2007.). Lampiran Peraturan Menteri Pendidikan Nasional Nomor 16 Tahun 2007 Tentang Standar Kualifikasi Akademik Dan Kompetensi Guru.

Muthohar, S. (2016). Antisipasi Degradasi Moral di Era Global. Nadwa, 7(2), 321–334. https://doi.org/10.21580/nw.2013.7.2.565

Okorie, E. U. (2014). Development and Validation of Teacher-made Instructional Software Package for Teaching Chemical Bonding in Secondary Schools. Journal of Education and Practice, 5(22), 28. https://www.iiste.org/Journals/index.php/JEP/article/view/14537

Rasmawan, R. (2017). Profil Keterampilan Berpikir Kritis Mahasiswa dan Korelasinya dengan Indeks Prestasi Akademik. EduChemia (Jurnal Kimia dan Pendidikan), 2(2), 130–140. https://doi.org/10.30870/educhemia.v2i2.1101

Ristekdikti. (2014). Panduan Penyusunan Capaian Pembelajaran Lulusan Program Studi. Jakarta: Direktorat Jendral Pembelajaran dan Kemahasiswaan.

Sartika, S. B. (2011). Pengembangan Perangkat Pembelajaran Fisika Berorientasi Model Pembelajaran Pemaknaan untuk Meningkatkan Hasil Belajar Siswa. PEDAGOGIA: Jurnal Pendidikan, 1(1), 65–84. https://doi.org/10.21070/pedagogia.v1i1.33

Smitha, E., & Aruna. (2014). Effect of Science Technology Society Approach on Achievement Motivation in Biology of Secondary School Students of Kasaragod District. IOSR Journal of Humanities and Social Science, 19(4), 54–58. https://doi.org/10.9790/0837-19475458

Steele, A. (2013). Shifting Currents: Science Technology Society and Environment in Northern Ontario Schools. Brock Education, 23(1), 18–42. https://doi.org/10.26522/brocked.v23i1.351

Tsankov, N. (2012). Students’ Motivation in The Process of Problem-Based Education in Chemistry and Environmental Sciences. International Journal of Humanities and Social Science, 2(21), 155–166. http://www.ijhssnet.com/journals/Vol_2_No_21_November_2012/18.pdf

Wass, R., Harland, T., & Mercer, A. (2011). Scaffolding critical thinking in the zone of proximal development. Higher Education Research & Development, 30(3), 317–328. https://doi.org/10.1080/07294360.2010.489237

Yuliani, N. Y., Tukiran, T., & Yuanita, L. (2017). Penerapan Model Pembelajaran Pemaknaan Pada Pembelajaran Kimia Terhadap Pengembangan Karakter Pada Siswa SMK. JPPS (Jurnal Penelitian Pendidikan Sains), 1(2), 80–84. https://doi.org/10.26740/jpps.v1n2.p80-84

Zhou, Q., Huang, Q., & Tian, H. (2013). Developing Students’ Critical Thinking Skills by Task-Based Learning in Chemistry Experiment Teaching. Creative Education, 04(12), 40–45. https://doi.org/10.4236/ce.2013.412A1006

Zoller, U. (2013). Science, Technology, Environment, Society (STES) Literacy for Sustainability: What Should it Take in Chem/Science Education? Educación Química, 24(2), 207–214. https://doi.org/10.1016/S0187-893X(13)72464-9