In the era of 21st century skills, the literacy scores of Indonesian students according to the results of the PISA study (2022) are still relatively low. The existence of learning loss after the covid-19 pandemic has had an impact on reducing learning outcomes and students' chemical literacy skills on redox material. This research aims to produce LAPD oriented to project based learning to improve chemical literacy skills on redox material. The method used is Research and Development (R&D) with a 4D model (define, design, develop, disseminate), but is limited to the develop stage. In this research, a limited trial was conducted on 29 students in 11^th Grde Science 2 class, at a private school in Mojokerto, who had received redox material. Data analysis was carried out descriptively quantitatively. The validity (content and construct) of LAPD is valid, obtaining a mode of 4 with a good category. The practicality of LAPD is practical, the results of the student response questionnaire obtained a percentage of 96.78% with a very good category. The effectiveness of LAPD iseffective, the n-gain of the chemical literacy test with a high category of 93.10% and a medium category of 6.90%; and the results of the paired sample t-test obtained a Sig.2-tailed value of 0.000 < 0.05 so that H₀ is rejected and H₁ is accepted. Thus, it can be concluded that LAPD oriented to project based learning to improve chemical literacy skills on redox material, worthy of use

student activity sheets (LAPD); project based learning (PjBL); chemical literacy skills; redox

Anderson, L. W., & Krathwohl, D. R. (2015). Kerangka Landasan Untuk Pembelajaran, Pengajaran dan Asesmen: Revisi Taksonomi Pendidikan Bloom. Yogyakarta: Pustaka Belajar.

Artini, N. P., & Wijaya, I. K. (2020). Strategi Pengembangan Literasi Kimia Bagi Siswa SMP. Jurnal Ilmiah Pendidikan Citra Bakti, 7(2), 100-108.

BSKAP. (2022). Capaian Pembelajaran Pada Anak Usia Dini, Jenjang Pendidikan Dasar, dan Jenjang Pendidikan Menengah Pada Kurikulum Merdeka. Jakarta: BSKAP.

BSNP. (2014). Instrumen Penilaian Buku Teks Pelajaran. Jakarta: BSNP.

Dahar, R. W. (2011). Teori-Teori Belajar dan Pembelajaran. Jakarta: Erlangga.

Danoebroto, S. W. (2015). Teori Belajar Konstruktivis Piaget dan Vygotsky. Indonesia Digital Journal of Mathematics and Education, 2(3), 191-198.

Depdiknas. (2008). Panduan Pengembangan Bahan Ajar. Jakarta: Direktorat Pembinaan SMA.

El-haqq, W. T., & Mitarlis. (2024). Penerapan Model Pembelajaran Inkuiri Terbimbing Pada Materi Laju Reaksi Untuk Meningkatkan Literasi Sains Siswa SMK. UNESA Journal of Chemical Education, 13(1), 30-37.

Eliza, W., & Yusmaita, E. (2021). Pengembangan Butir Soal Literasi Kimia Pada Materi Sistem Koloid Kelas XI IPA SMA/MA. Jurnal Eksakta Pendidikan (JEP), 5(2), 197-204.

Fadhilah, R., & Hidayah, R. (2020). Profil Kemampuan Literasi Sains Peserta Didik Pada Materi Reaksi Reduksi Oksidasi dan Implementasi LKPD Berorientasi Blended Learning Di SMA. Prosiding Seminar Nasional Kimia, 135-143.

Hake, R. R. (1998). Interactive Engagement Versus Traditional Methods: A Six Thousand Student Survey of Mechanics Test Data for Introductory Physics Courses. American Journal Physics, 66(1), 64-74.

Ibrahim, & Wahyukartiningsih. (2014). Model Pembelajaran Inovatif Melalui Pemaknaan. Surabaya: Unesa University Press.

Kemendikbudristek. (2022). Panduan Pembelajaran dan Asesmen. Jakarta: Kemendikbudristek.

Laksono, P. J. (2018). Studi Kemampuan Literasi Kimia Mahasiswa Pendidikan Kimia Pada Materi Pengelolaan Limbah. Orbital: Jurnal Pendidikan Kimia, 2(1), 1-12.

Lutfi, A. (2021). Research and Development (R&D): Implikasi dalam Pendidikan Kimia. Surabaya: Jurusan Kimia FMIPA UNESA.

Ma'sumah, A., & Mitarlis. (2021). Pengembangan LKPD Berorientasi STEM dengan Model PjBL Materi Larutan Elektrolit Nonelektrolit dengan Memanfaatkan Bahan Sekitar. Journal of Innovation in Chemistry Education, 3(1), 22-34.

Mitarlis, Yonata, B., & Hidayah, R. (2017). Implementation of Science Character Values with Green Chemistry Insight Integrated on Basic Chemistry Course by Using Project Based Learning. Advance Science Letters, 23(12), 11943-11947.

OECD. (2019). PISA 2018 Assessment and Analytical Framework PISA. Paris: OECD Publishing.

OECD. (2023). PISA 2022 Results (Volume I): The State of Learning and Equity in Education. Paris: OECD Publishing.

Prastowo, A. (2016). Panduan Kreatif Membuat Bahan Ajar Inovatif. Yogyakarta: DIVA Press.

Putri, M. H., & Rinaningsih. (2021). Review: Efektivitas LKPD Untuk Meningkatkan Keterampilan Literasi Sains Peserta Didik Dalam Pembelajaran Kimia. UNESA Journal of Chemical Education, 10(3), 222-232.

Rahayu, S. (2017). Mengoptimalkan Aspek Literasi Dalam Pembelajaran Kimia Abad 21. Prosiding Seminar Nasional Kimia UNY, 1-16.

Rahayu, S. (2019). Socioscientific Issues: Manfaatnya dalam Meningkatkan Pemahaman Konsep Sains, Nature of Science (NOS) dan Higher Order Thinking Skills (HOTS). Seminar Nasional Pendidikan IPA UNESA, 1-14.

Riduwan. (2016). Skala Pengukuran Variabel-Variabel Penelitian. Bandung: Alfabeta.

Riyadhin, A. F., & Mitarlis. (2018). Pengembangan Lembar Kegiatan Siswa (LKS) Untuk Melatihkan Kemampuan Literasi Sains Siswa Pada Materi Redoks. UNESA Journal of Chemical Education, 1(1), 8-13.

Rusmini, Suyono, & Agustini, R. (2021). Analisis Keterampilan Proses Sains Peserta Didik Pendidikan Kimia Melalui Self-Project Based Learning (SjBL) Di Era Pandemi Covid-19. Journal of Technology and Science Education, 11(2), 371-387.

Rusydiana, M., Nuriman, & Wardoyo, A. (2021). Pengaruh Model Project Based Learning Terhadap Higher Order Thinking Skills Pada Siswa Kelas V Sekolah Dasar. Edustream: Jurnal Pendidikan Dasar, 5(1), 13–16.

Shwartz, Y., Ben-Zvi, R., & Hofstein, A. (2006a). Chemical Literacy: What It Means to Scientists and School Teachers ? Journal of Chemical Education, 83, 1557-1561.

Shwartz, Y., Ben-Zvi, R., & Hofstein, A. (2006b). The Use of Scientific Literacy Taxonomy for Assessing The Development of Chemical Literacy among High-School Students. Chemistry Education Research & Practice, 7(4), 203–225.

Simamora, K. F. (2022). Kemampuan HOTS Siswa Melalui Model PjBL Ditinjau Dari Kemampuan Literasi Kimia Siswa. Journal of Innovation in Chemistry Education, 4(1), 55-65.

Sugiyono. (2019). Metode Penelitian Kuantitatif, Kualitatif, dan R&D. Bandung: Alfabeta.

Sukmawati, W. (2019). Analisis Level Makroskopis, Mikroskopis, dan Simbolik Mahasiswa dalam Memahami Elektrokimia. Jurnal Inovasi Pendidikan IPA, 5(2), 195-204.

Thiagarajan, S., & Semmel. (1974). Instructional Development for Training Teacher of Exceptional Children. Indiana: Indiana University Bioomington.

Thummathong, R., & Thathong, K. (2018). Chemical Literacy Levels of Engineering Students in Northeastern. Kasetsart Journal of Social Sciences, 39(3), 478-487.

Tim GLN Kemendikbud. (2017). Pedoman Penilaian dan Evaluasi Gerakan Literasi Nasional. Jakarta: Kemendikbud.

Toharudin, U., Sri, H., & Andrian, R. (2011). Membangun Literasi Sains Peserta Didik. Bandung: Humaniora.

Treagust, D. F. (2018). The Importance of Multiple Representations for Teaching and Learning Science. International Society for Research in Education and Science (ISRES), 215-223.

Ulandari, A., & Mitarlis. (2021). Pengembangan Lembar Kerja Peserta Didik (LKPD) Berwawasan Green Chemistry Untuk Meningkatkan Kemampuan Literasi Sains Pada Materi Asam Basa. Jurnal Inovasi Pendidikan Kimia, 15(1), 2764-2777.

Wardani, D. A., & Mitarlis. (2018). Pengembangan Lembar Kerja Peserta Didik (LKPD) Untuk Meningkatkan Keterampilan Literasi Sains Pada Materi Hidrokarbon Dan Minyak Bumi. UNESA Journal of Chemical Education, 7(2), 123-128.

Wardhana, S. O., Nabilah, S., Dewitasari, A. P., & Hidayah, R. (2022). E-Modul Interaktif Berbasis Nature of Science (NoS) Perkembangan Teori Atom Guna Meningkatkan Level Kognitif Literasi Sains Peserta Didik. UNESA Journal of Chemical Education, 11(1), 34-43.

Wasis, Rahayu, Y. S., Sunarti, T., & Indana, S. (2020). HOTS & Literasi Sains: Konsep, Pembelajaran, dan Penilaiannya. Jombang: Kun Fayakun Corp.

Zahro, B., & Mitarlis. (2021). Student Worksheet Oriented on Project Based Learning to Train Student Creative Thinking Skills on Acid-Base Material. UNESA Journal of Chemical Education, 10(1), 1-9.