The development model used is Research & Development which adopts the Lee & Owens development model. The product to be developed is E-LKPD using 3D Pageflip Professional software. 1. The procedure for developing E-LKPD with the PBL-STEM approach in improving scientific literacy skills on the reaction rate material for students. The research procedure consists of five stages, namely analysis, design, development, implementation, evaluation. Research results (1) The analysis includes media analysis, student characteristics analysis, technology analysis, situation analysis, and data analysis. (2) Design includes determining the development team, compiling a development schedule, making flowcharts and making storyboards. (3) Development includes making a product which is then validated by a team of experts until it is validated. (4) Implementation, at this stage a product assessment is carried out by 2 chemistry teachers to see the agreement between the two teachers on the product developed through the kappa test, one-on-one trial with 2 groups of respondents consisting of 3 students in each group, small group trial with two groups of respondents carried out at MAN 2 Jambi City. This trial is not conducted face-to-face, but online (5) Evaluation, which is carried out at each stage is ongoing. The conclusion in this study is that the E-LKPD development procedure is in accordance with the 5 stages of the Lee & Owens development model.

Keywords: E-LKPD, PBL-STEM, Science literacy skills

AAPS. (1989). A question worth science for all Americans. The American Physiological Society.

Abubakar, A. B., & Arshad, M. Y. (2015). Self-directed learning and skills of problem-based learning: A case of Nigerian secondary schools chemistry students. International Education Studies, 8(12), 70–78. Doi:10.5539/ies.v8n12p70

Afriana, J., Permanasari, A., & Fitriani, A. (2016). Project based learning integrated to stem to enhance elementary school’s students scientific literacy. Jurnal Pendidikan IPA Indonesia, 5(2), 261–267. DOI:10.15294/jpii.v5i2.5493

Apriliyanti, W. (2019). Pengembangan E-LKPD berpendekatan pembelajaran STEM (Science, Technology, Enginering, and mathematic) pada materi koloid untuk meningkatkan kreatifitas siswa. Universitas Jambi.

Ariani, L., Sudarmin, S., & Nurhayati, S. (2019). Analisis berpikir kreatif pada penerapan problem based learning berpendekatan science, technology, engineering, and mathematics. Jurnal Inovasi Pendidikan Kimia, 13(1), 2307-2317.

Birgili, B. (2015). Creative and critical thinking skills in problem-based learning environments. Journal of Gifted Education and Creativity, 2(2), 71–80. DOI: 10.18200/JGEDC.2015214253

Boud, D. (1993). Experience as the base for learning. Higher Education Research and Development, 12(1), 33–44. DOI: 10.1080/0729436930120104

Dischino, M., DeLaura, J. A., Donnelly, J., Massa, N. M., & Hanes, F. (2011). Increasing the STEM pipeline through problem-based learning. Technology Interface International Journal, 12(1), 21–29.

Fakhriyah, F., Roysa, M., & Masfuah, S. (2017). Analisis kemampuan konsep sains ditinjau dari aspek literasi sains mahasiswa progdi pendidikan guru sekolah dasar.

Fitriani, D. E. N., Amelia, E., & Marianingsih, P. (2017). Penyusunan modul pembelajaran berbasis sains teknologi dan masyarakat (stm) pada konsep bioteknologi (Sebagai Bahan Ajar Siswa SMA Kelas XII). Biosfer: Jurnal Pendidikan Biologi, 10(2), 60–72. DOI:10.21009/biosferjpb.10-2.8

Fitriyani, D., Jalmo, T., & Yolida, B. (2019). Penggunaan problem based learning untuk meningkatkan keterampilan kolaborasi dan berpikir tingkat tinggi. Jurnal Bioterdidik: Wahana Ekspresi Ilmiah, 7(3), 77–87.

Hakimah, N., Muchson, M., Herunata, H., Permatasari, M. B., & Santoso, A. (2021). Identification student misconceptions on reaction rate using a Google forms three-tier tests. AIP Conference Proceedings, 2330(1), 020020. DOI:10.1063/5.0043114

Hmelo-Silver, C. E. (2004). Problem-based learning: What and how do students learn? Educational Psychology Review, 16(3), 235–266. DOI:10.1023/B:EDPR.0000034022.16470.f3

Iftitahurrahimah, I., Andayani, Y., & Al Idrus, S. W. (2020). Pengaruh model problem based learning (pbl) terhadap kemampuan komunikasi siswa materi pokok larutan elektrolit dan non-elektrolit. Jurnal Pijar Mipa, 15(1), 7–12. DOI:10.29303/jpm.v15i1.1289

Imaningtyas, C. D., Karyanto, P., Nurmiyati, N., & Asriani, L. (2016). Penerapan e-module berbasis problem based learning untuk meningkatkan literasi sains dan mengurangi miskonsepsi pada materi ekologi siswa kelas x mia 6 sman 1 Karanganom tahun pelajaran 2014/2015. Bioedukasi: Jurnal Pendidikan Biologi, 9(1), 4–10.

Isrokijah, I. (2015). Developing problem-based learning (PBL) worksheets for the eight grade students at junior high school. LLT Journal: A Journal on Language and Language Teaching, 18(2), 99–106. DOI:10.24071/llt.2015.180203

Khairani, S. (2019). Pengembangan Media Pembelajaran Menggunakan Pendekatan Realistik Berbantuan Geogebra Untuk Meningkatkan Kemampuan Spasial Matematis Siswa Smp [PhD Thesis]. Unimed.

Laili, I. (2019). Efektivitas pengembangan e-modul project based learning pada mata pelajaran instalasi motor listrik. Jurnal Imiah Pendidikan dan Pembelajaran, 3(3), 306–315.

Lee, C.-D. (2014). Worksheet usage, reading achievement, classes’ lack of readiness, and science achievement: A cross-country comparison. International Journal of Education in Mathematics, Science and Technology, 2(2). DOI:10.18404/ijemst.38331

Lee, W. W., & Owens, D. L. (2004). Multimedia-based instructional design: Computer-based training, web-based training, distance broadcast training, performance-based solutions. John Wiley & Sons.

Malan, S. B., & Ndlovu, M. (2014). Introducing problem-based learning (PBL) into a foundation programme to develop self-directed learning skills. South African Journal of Education, 34(1). DOI: 10.15700/201412120928

McDowell, E. T., & Waddling, R. E. L. (1985). Improving the design of laboratory worksheets. Journal of Chemical Education, 62(11), 1037. DOI:10.1021/ed062p1037

Mujasam, M., Widyaningsih, S. W., & Yusuf, I. (2018). Effect of cooperative learning model types of stick talking using simple props to higher order thinking skill. Kasuari: Physics Education Journal (KPEJ), 1(2), 73–82. DOI:10.37891/kpej.v1i2.27

Nadhifatuzzahro, D., Setiawan, B., & Sudibyo, E. (2015). Kemampuan literasi sains siswa kelas VII-B SMP Negeri 1 Sumobito melalui pembuatan jamu tradisional. Seminar Nasional Fisika dan Pembelajarannya, 21–27.

Naufal, M., & Firdaus, M. (2019). Penerapan animasi 3 dimensi untuk wisata edukasi anak berbasis virtual reality. Jurnal Teknologi Elekterika, 16(1), 33–38. DOI:10.31963/elekterika.v16i1.2003

OECD. (2018). What 15-year-old students in Indonesia know and can do. O. Programme for International Student Assessment (PISA) Result from PISA 2018, 1–10. http://www.oecd.org/pisa/ Data

Ogunkola, B. J. (2013). Scientific literacy: Conceptual overview, importance and strategies for improvement. Journal of Educational and Social Research, 3(1), 265–274.

Purnama, S. (2010). Elemen warna dalam pengembangan multimedia pembelajaran agama Islam. Al-Bidayah: Jurnal Pendidikan Dasar Islam, 2(1). DOI:10.14421/al-bidayah.v2i1.102

Rahayu, M. (2015). Pelaksanaan standar pengelolaan pendidikan di sekolah dasar kecamatan Ngemplak, Sleman. Jurnal Penelitian Ilmu Pendidikan, 8(1), 62-79.

Saija, M. (2019). Profil kemampuan literasi kimia siswa SMA Negeri 3 Ambon. Jurnal Kiprah, 7(2), 99–106. DOI:10.31629/kiprah.v7i2.1463

Sariati, D. (2013). Analisis keterampilan proses pada penggunaan Hierarki Inkuiri dan dampaknya terhadap literasi sains siswa SMP [PhD Thesis]. Universitas Pendidikan Indonesia.

Setiyani, R. (2010). Pemanfaatan internet sebagai sumber belajar. Dinamika Pendidikan, 5(2), 117-133.

Sibuea, G. V., Suyanti, R. D., & Silaban, S. (2019). The development of chemistry lab guide book for high school based on guided inquiry to measure scientific attitudes and science process skill. Proceedings of The 4th Annual International Seminar on Transformative Education and Educational Leadershi, 319-325.

Silaban, S. (2021). Pengembangan program pengajaran. Medan: Yayasan Kita Menulis.

Valdez, J. E., & Bungihan, M. E. (2019). Problem-based learning approach enhances the problem solving skills in chemistry of high school students. JOTSE, 9(3), 282–294. DOI:10.3926/jotse.631

Yuliati, L., Hapsari, A. A., Nurhidayah, F., & Halim, L. (2018). Building scientific literacy and physics problem solving skills through inquiry-based learning for STEM education. Journal of Physics: Conference Series, 1108(1), 012026. DOI:10.1088/1742-6596/1108/1/012026