Learning technology needs to support improving critical thinking skills in the 21^st century. Self-regulated learning-based digital module can be used to support students’ independent learning. The aims of this study are (1) to describe a valid digital module based on self-regulated learning; (2) to evaluate and describe the practicality of the digital module based on self-regulated learning; (3) to determine the effectiveness of the digital module based on self-regulated learning on students' critical thinking skills. The method used is Research and Development with the ADDIE development model. The results of the study are (1) the developed digital module based on self-regulated learning is declared valid; (2) the digital module based on self-regulated learning is stated to be practical as indicated by the response and implementation in the good category; (3) students' critical thinking skills in the experimental class are better than the control class. Generally, the self-regulated learning-based digital modules are valid, practical, and effective.

Alfayez, M. Q. E., Aladwan, S. Q. A., & Shaheen, H. R. A. (2022). The Effect of a training program based on mathematical problem-solving strategies on critical thinking among seventh-grade students. Frontiers in Education, 7(1), 1-9.

Andriani, I., & Suparman. (2019). Design of module to increasing critical thinking skills for seventh grade students. International Journal of Scientific and Technology Research, 8(12), 853–856.

Angraeni, L. (2021). The influence of problem based learning model and critical thinking skills on higher order thinking skills (HOTs) of physics prospective teachers students. Journal of Physics: Conference Series, 2104(1), 012007.

Arce‐Trigatti, A., Kelley, J., & Haynes, A. (2022). On new ground: Assessment strategies for critical thinking skills as the learning outcome in a social problems course. New Directions for Teaching and Learning, 2022(169), 83–97.

Arsih, F., Zubaidah, S., Suwono, H., & Gofur, A. (2021). RANDAI learning model to enhance pre-service biology teachers’ critical thinking skills. International Journal of Instruction, 14(2), 845–860.

Brenner, C. A. (2022). Self-regulated learning, self-determination theory and teacher candidates’ development of competency-based teaching practices. Smart Learning Environments, 9(1), 1-14.

Broadbent, J., Panadero, E., Lodge, J. M., & de Barba, P. (2020). Technologies to enhance self-regulated learning in online and computer-mediated learning environments. In Handbook of Research in Educational Communications and Technology (pp. 37–52). Springer International Publishing.

Chusni, M. M., Saputro, S., Suranto, S., & Rahardjo, S. B. (2022). Enhancing critical thinking skills of junior high school students through discovery-based multiple representations learning model. International Journal of Instruction, 15(1), 927–944.

Desnita, D., Festiyed, F., Novitra, F., Ardiva, A., & Navis, M. Y. (2022). The effectiveness of CTL-based physics e-module on the improvement of the creative and critical thinking skills of senior high school students. TEM Journal, 11(2), 802–810.

Dick, W., & Carey, L. (1996). The systematic design of instruction (4th ed.). Harper Collins.

Ellizar, E., Putri, S. D., Azhar, M., & Hardeli, H. (2019). Developing a discovery learning module on chemical equilibrium to improve critical thinking skills of senior high school students. Journal of Physics: Conference Series, 1185, 012145.

Feriyanto, F., & Putri, R. O. E. (2020). Developing mathematics module based on literacy and higher order thinking skills (HOTS) questions to train critical thinking skills of high school students in Mojokerto. Journal of Physics: Conference Series, 1594(1), 012014.

Hairida, H. (2016). The effectiveness using inquiry based natural science module with authentic assessment to improve the critical thinking and inquiry skills of junior high school students. Jurnal Pendidikan IPA Indonesia, 5(2), 209–215.

Haryanto, A., Sunaryo, & Rustana, C. E. (2021). Development of e-module with a scientific approach to improve the student’s critical thinking skills at class XI student high school in optical media material. Journal of Physics: Conference Series, 2019(1), 012002.

Hazaymeh, W. A., & Alomery, M. K. (2022). The effectiveness of visual mind mapping strategy for improving english language learners’ critical thinking skills and reading ability. European Journal of Educational Research, 11(1), 141–150.

Hsu, F.-H., Lin, I.-H., Yeh, H.-C., & Chen, N.-S. (2022). Effect of Socratic Reflection Prompts via video-based learning system on elementary school students’ critical thinking skills. Computers & Education, 183, 104497.

Koth, A. J., Focken, A. G., Lyden, E. R., & Yoachim, S. D. (2021). Effectiveness of an E‐module at teaching novice learners critical thinking skills related to dentistry. Journal of Dental Education, 85(12), 1879–1888.

Lestari, N., Basri, K. I., Yusuf, S. M., Suciati, S., & Masykuri, M. (2020). Life skill integrated science-PBL module to improve critical thinking skills of secondary school students. Universal Journal of Educational Research, 8(7), 3085–3096.

Li, W. (2022). Studying creativity and critical thinking skills at university and students` future income. Thinking Skills and Creativity, 43, 100980.

List, J. A. (2022). Enhancing critical thinking skill formation: Getting fast thinkers to slow down. The Journal of Economic Education, 53(1), 100–108.

Marnah, Y. (2022). Development of physics module based high order thinking skill (HOTS) to improve student’s critical thinking. Journal of Physics: Conference Series, 2165(1), 012018.

Morin, D., D. E. Thomas, J., & George Saadé, R. (2012). Activities and resources in online learning: From a critical thinking view. Proceedings of the 2012 InSITE Conference, June 2014, 597–602.

Muhdhar, M. H. I. A., Faruq, M. K., Sari, M. S., Sumberartha, I. W., & Mardiyanti, L. (2021, March). The effectiveness of the project-based learning-based ethnobotany module of Karang Kitri towards critical thinking skills. In AIP Conference Proceedings (Vol. 2330, No. 1, p. 030006). AIP Publishing LLC.

Nugraheni, B. I., Surjono, H. D., & Aji, G. P. (2022). How can flipped classroom develop critical thinking skills? A literature review. International Journal of Information and Education Technology, 12(1), 82–90.

Nusantari, E., Abdul, A., Damopolii, I., Salim, A., & Suleiman, B. (2021). Combination of discovery learning and metacognitive knowledge strategy to enhance students’ critical thinking skills. European Journal of Educational Research, 10(4), 1781–1791.

O’Halloran, B. (2022). Strengthening critical thinking skills in associate degree nursing students through combined pedagogies of concept mapping using the nursing process and simulation. Nursing Education Perspectives, 43(3), E10–E12.

Osorio, J. M. H., Franco-Mariscal, A. J., & López, Á. B. (2022). Uso de dilemas socio-científicos para el desarrollo de habilidades de pensamiento crítico en docentes en formación inicial. Percepciones del profesorado. Revista Interuniversitaria de Formación Del Profesorado. Continuación de La Antigua Revista de Escuelas Normales, 36(97), 99-122.

Putra, A., Lufri, Festiyed, & Ellizar. (2019). How student worksheet oriented of content complexity and cognitive processes can improve conceptual understanding and critical thinking skill of student in physics learning in high school. Journal of Physics: Conference Series, 1185, 012045.

Retnowati, S., & Subanti, S. (2020). The STEM approach : The development of rectangular module to improve critical thinking skill. Online Journal of Education and Teaching (IOJET), 7(1), 2–15.

Russell, J. M., Baik, C., Ryan, A. T., & Molloy, E. (2022). Fostering self-regulated learning in higher education: Making self-regulation visible. Active Learning in Higher Education, 23(2), 97–113.

Sayekti, A. M., & Suparman. (2020). Development of PJBL-based LKPD with STEM approach design to improve critical thinking skills. International Journal of Scientific and Technology Research, 9(3), 3390–3394.

Serevina, V., Nugroho, D. A., & Lipikuni, H. F. (2022). Improving the quality of education through effectiveness of e-module based on android for improving the critical thinking skills of students in pandemic era. Malaysian Online Journal of Educational Management (MOJEM), 10(1), 1–20.

Syahrial, S., Asrial, A., Kurniawan, D. A., Perdana, R., & Pratama, R. A. (2021). Implementing inquiry based ethno-constructivism learning module to improve students’ critical thinking skills and attitudes towards cultural values. Eurasian Journal of Educational Research, 2021(95), 118-138.

Umam, K., & Susandi, A. D. (2022). Critical thinking skills: Error identifications on students’ with APOS theory. International Journal of Evaluation and Research in Education (IJERE), 11(1), 182-192.

Zhou, S. A., & Hiver, P. (2022). The effect of self-regulated writing strategies on students’ L2 writing engagement and disengagement behaviors. System, 106, 102768.