Discover Solar Energy, a leading Elsevier journal in renewable energy with a 7.139 impact factor. Ideal for solar power research, it offers prestige and global reach for high-impact submissions in photovoltaics and thermal systems.
Solar Energy stands as a cornerstone in the field of renewable energy research, providing a dedicated platform for scientists and engineers to disseminate groundbreaking work on solar technologies. Established in 1957 by Elsevier, this journal has evolved into a vital resource for advancing knowledge in photovoltaics, solar thermal systems, and energy conversion processes. With a focus on both fundamental science and practical applications, it attracts contributions from leading experts worldwide, ensuring rigorous peer review and high visibility.
The journal's prestige is underscored by its consistent ranking in the top quartile of energy journals, boasting an impact factor of 7.139 as per the latest Clarivate Journal Citation Reports. Researchers value Solar Energy for its broad scope that encompasses materials science, physics, and engineering aspects of solar energy utilization. Whether exploring novel photovoltaic materials or optimizing solar collector designs, publications here contribute to global sustainability efforts and influence policy and industry innovations.
Publishing in Solar Energy offers significant career benefits, including enhanced citation rates and recognition within academic and professional circles. The journal's hybrid model allows authors to choose open access for wider dissemination, amplifying the reach of their findings. Its editorial board, comprising distinguished scholars, upholds standards of excellence, making acceptance a notable achievement.
For those navigating academic careers, integrating research from Solar Energy into profiles can open doors to funding and collaborations. Explore energy faculty jobs or renewable energy PhD programs to align your work with institutional needs. As solar energy transitions from niche to mainstream, this journal remains essential for staying at the forefront.
To submit your manuscript and join this influential community, visit the official submission portal. Additionally, check academic calendar for key deadlines in energy research funding cycles.
Solar Energy was founded in 1957 amid growing interest in harnessing solar power as a clean energy source. Published by Elsevier, it initially focused on basic solar radiation measurements and has since expanded to cover advanced technologies. Over six decades, it has published thousands of articles that have shaped the solar industry, from early silicon cells to modern perovskite innovations. The journal's evolution reflects the field's maturation, adapting to include interdisciplinary topics like solar-integrated buildings and grid systems. Its commitment to quality has made it a go-to for policymakers and engineers seeking reliable data.
Solar Energy covers a wide array of topics in solar energy science and technology. Key areas include photovoltaic systems, solar thermal energy, solar radiation and meteorology, and energy storage solutions. It emphasizes experimental and theoretical studies that advance efficiency and scalability.
| Discipline | Description |
|---|---|
| Renewable Energy | Focus on solar as a sustainable power source, including policy implications. |
| Materials Science | Development of semiconductors and coatings for solar applications. |
| Physics | Fundamental studies on light absorption and charge transport. |
| Engineering | Design and optimization of solar devices and systems. |
| Environmental Science | Impact assessments of solar deployments on ecosystems. |
| Metric | Value | Source |
|---|---|---|
| Impact Factor | 7.139 | Clarivate JCR 2023 |
| CiteScore | 13.7 | Scopus 2023 |
| h-Index | 193 | Scopus |
| Acceptance Rate | Approximately 25% | Publisher data |
| Submission to First Decision | Median 45 days | Elsevier metrics |
These metrics highlight Solar Energy's influence, with steady growth in citations reflecting its relevance in accelerating climate solutions.
Solar Energy is indexed in major databases, ensuring discoverability. It appears in Scopus, Web of Science (Science Citation Index Expanded), and Google Scholar. Additional coverage includes INSPEC, Energy Abstracts, and Renewable Energy databases. This broad indexing supports interdisciplinary access, from engineering libraries to environmental policy archives. Authors benefit from DOAJ listing for open access articles, enhancing global visibility.
As a hybrid journal, Solar Energy offers traditional subscription access alongside open access options. The Article Publishing Charge (APC) for gold open access is $3,440 (excluding taxes), covering peer review and production. Subscription-based publication incurs no fees for authors. Elsevier's green open access policy allows self-archiving in repositories after embargo. This flexibility accommodates diverse funding sources, promoting equitable access to solar research.
Manuscripts are submitted via Elsevier's Editorial Manager system at the journal's homepage. Guidelines require original research in English, with structured abstracts and keywords. Figures must be high-resolution, and references follow Vancouver style. Ethical standards adhere to COPE guidelines, emphasizing data transparency. Reviewers assess novelty, methodology, and impact, typically within 4-6 months from submission to publication.
The editorial board features experts like Editor-in-Chief Prof. Anna Laura Pisello (University of Perugia), specializing in building-integrated photovoltaics. Other members include Prof. Robert Pitz-Paal (DLR, Germany) on solar thermal and Prof. Elias Kyriakides (University of Cyprus) on power systems. Their diverse backgrounds ensure balanced oversight, drawing from Europe, Asia, and North America to foster inclusive scholarship.
Publishing here elevates research profiles due to the journal's high visibility and citation potential. It connects authors with industry leaders in solar manufacturing and utilities. The rigorous process refines work for broader applicability, aiding grant applications. For early-career researchers, it's a stepping stone to tenure-track positions; explore rate my professor for insights from energy academics. Ultimately, contributions drive the solar revolution, aligning with UN Sustainable Development Goals.
| Journal | Impact Factor | Publisher | Focus |
|---|---|---|---|
| Solar Energy Materials and Solar Cells | 7.331 | Elsevier | Materials for PV and thermal |
| Progress in Photovoltaics | 7.984 | Wiley | PV research and applications |
| Journal of Solar Energy Engineering | 2.6 | ASME | Engineering aspects |
| Renewable Energy | 8.634 | Elsevier | Broad renewables, including solar |
Solar Energy excels in balanced coverage, outperforming in thermal topics while competitive in PV metrics.
Align your work with current calls, like climate-resilient solar tech. Use clear visuals and validate models against real data. Engage with recent issues for trends. For career growth, pair publications with higher ed jobs in energy. Network via conferences listed in academic calendar. Persistence pays; revisions often lead to stronger papers.