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Bibliometric Analysis of Earth Science Physics Learning in Higher Education: Challenges, Innovations, and Contributions to Education for Sustainable Development Hanan Zaki Alhusni; Riski Ramadani; Titin Sunarti; Madlazim Madlazim; Muhammad Rey Dafa Ahmadi
Journal of Law and Bibliometrics Studies Vol. 1 No. 2 (2025): August
Publisher : Sekolah Tinggi Agama Islam Sabilul Muttaqin Mojokerto

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63230/jolabis.1.2.87

Abstract

Objective: This study aims to provide a comprehensive bibliometric analysis of earth science and physics learning in higher education within the framework of Education for Sustainable Development (ESD). The objectives are to identify research trends, major contributors, collaboration patterns, and thematic focuses that define the development of this field. Method: Data were collected from the Scopus database (2015–2025) using keywords related to earth science, physics learning, higher education, and sustainability. After screening, 413 relevant documents were analysed using Bibliometrix and VOSviewer to map publication trends, influential journals, key authors, institutional contributions, and keyword co-occurrence networks. Results: The findings reveal three phases of publication dynamics: early decline (2015–2017), rapid growth (2018–2019), and consolidation (2020–2025). The Journal of Geoscience Education dominates as the main publication source, while the United States and Indonesia emerge as the leading contributors. Thematic analysis highlights two clusters: pedagogical innovation and curriculum transformation for sustainability competencies, and the integration of technology (AI, STEM, computing) in science education. Despite increasing international collaboration, networks remain fragmented. Novelty: This study is the first bibliometric mapping that specifically connects earth science and physics learning with the ESD agenda. It identifies research gaps, particularly the lack of integration of sustainability dimensions in physics pedagogy, uneven global collaboration, and limited exploration of digital innovations for ecological literacy.
Bibliometric Analysis of Earthquake Technologies in Physics Education for Education for Sustainable Development Hanan Zaki Alhusni; Binar Kurnia Prahani; Titin Sunarti; Madlazim Madlazim; Salma Hasna Hamiydah
Journal of Law and Bibliometrics Studies Vol. 1 No. 2 (2025): August
Publisher : Sekolah Tinggi Agama Islam Sabilul Muttaqin Mojokerto

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63230/jolabis.1.2.88

Abstract

Objective: This study aims to explore the intersection of earthquake technologies, physics education, and Education for Sustainable Development (ESD) through bibliometric analysis. The objectives include mapping the existing literature, identifying key trends, gaps, and influential publications, and highlighting the contributions of top authors and geographical hotspots in this interdisciplinary field. Method: A comprehensive bibliometric analysis was conducted using publications from 2021 to 2025, sourced from databases like Scopus. Keywords related to earthquake technologies, physics education, and ESD were employed to gather articles. The study utilized tools like VOSviewer and Bibliometrix for citation analysis, co-authorship patterns, and thematic evolution, allowing for the identification of key research trends and collaborations. Results: The analysis reveals a growing body of research, particularly in Asia, with a focus on specific technologies like virtual reality simulations and mobile applications for disaster preparedness. However, the study also highlights a fragmentation in the field, with limited holistic approaches that bridge these technologies and educational frameworks. The most influential authors include Deng X and Xu D, with significant contributions from countries like China, Indonesia, and Japan. Novelty: This study provides a unique bibliometric overview of the intersection between earthquake technologies, physics education, and ESD, a topic not extensively covered in recent literature. It offers new insights into the state of research, identifies key gaps, and lays the foundation for future research in integrating technological innovations into disaster preparedness and education for sustainable development.
Bibliometric Analysis of Reflective Practices in Physics Learning: Trends, Challenges, and Future Directions Hanan Zaki Alhusni; Binar Kurnia Prahani; Titin Sunarti; Madlazim Madlazim
Journal of Law and Bibliometrics Studies Vol. 1 No. 3 (2025): December
Publisher : Sekolah Tinggi Agama Islam Sabilul Muttaqin Mojokerto

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63230/jolabis.1.3.103

Abstract

Objective: This study aims to provide a comprehensive bibliometric analysis of reflective practices in physics education, identifying global trends, research gaps, and future directions. The focus is to map the development of reflective practices as a key 21st-century skill in physics learning and to highlight their role in strengthening conceptual understanding, metacognitive awareness, and student autonomy. Method: A bibliometric research design was employed using the Scopus database as the primary source. Data were collected from 1995 to 2025, filtered according to inclusion criteria, and analyzed using performance analysis and science-mapping techniques. Tools such as VOSviewer and Biblioshiny were used to visualize publication trends, collaboration networks, and keyword co-occurrences, ensuring validity and replicability. Results: The findings indicate significant growth in publications since 2015, peaking in 2024. Conference proceedings dominate research outputs, while reputable journals play a more minor yet influential role. The United States, China, and Indonesia emerge as leading contributors, with varying levels of international collaboration. Keyword analysis highlights "students," "reflection," and "deep learning" as dominant themes, reflecting a shift toward student-centred and technology-enhanced pedagogies. Novelty: Unlike prior studies that focused mainly on classroom implementation or teacher training, this research systematically maps reflective practices in physics education through bibliometric analysis. It provides the first global overview of research trends and offers strategic recommendations for advancing reflective practices as a transformative approach in 21st-century physics education.