Zeitschrift für Kristallographie-Crystalline Materials is a prestigious academic journal published by Walter de Gruyter GmbH, focusing on the intricate field of crystallography and its applications within condensed matter physics, inorganic chemistry, and materials science. Established in Germany, this journal spans a rich history from its inception in 1930 to its convergence years from 2012 to 2024, presenting cutting-edge research and developments in crystalline materials. With an impact factor reflective of its critical role within its field—ranking Q3 in the prestigious quartiles for 2023 across multiple categories—this journal serves as an essential platform for researchers, professionals, and students seeking to expand their knowledge and contribute to the advancement of crystalline materials. While currently not offering open access, the journal remains committed to disseminating high-quality, peer-reviewed articles that inspire innovation and collaboration within the scientific community.

CRYSTAL GROWTH & DESIGN, published by the American Chemical Society, is a premier journal dedicated to the interdisciplinary study of materials science, condensed matter physics, and miscellaneous chemistry. With an ISSN of 1528-7483 and E-ISSN of 1528-7505, this journal provides a vital platform for the dissemination of innovative research findings from 2001 through 2024, reflecting the dynamic advancements in crystal growth and design methodologies. It is recognized for its impact in the field, earning a distinguished placement in the Q2 quartile across categories of Chemistry, Condensed Matter Physics, and Materials Science for 2023. Researchers engaging with CRYSTAL GROWTH & DESIGN will find a wealth of peer-reviewed articles encompassing cutting-edge experimental techniques, theoretical frameworks, and application-oriented studies. Although not an open-access journal, it remains a critical resource for academics, professionals, and students aiming to enhance their understanding of crystal growth processes and material functionality, with Scopus rankings reflecting its reputable authority within the scientific community.

CRYSTENGCOMM is a distinguished journal published by the Royal Society of Chemistry, dedicated to advancing the field of crystallization and crystal engineering. With its impact factor consistently among the top tier in its category, CRYSTENGCOMM serves as an essential platform for researchers, professionals, and students in Chemistry, Condensed Matter Physics, and Materials Science. The journal has successfully maintained its relevance and influence since its inception, showcasing pioneering research from 1999 to 2024, with a commendable Q2 ranking in the latest evaluations. This accessibility to crucial developments in crystallization facilitates knowledge transfer across disciplines and enhances collaboration within the scientific community. Although it operates under a subscription model, the journal remains committed to disseminating cutting-edge research and fostering innovation in the field. For more information or to submit your research, please visit the Royal Society of Chemistry's website.

PROGRESS IN CRYSTAL GROWTH AND CHARACTERIZATION OF MATERIALS, published by Pergamon-Elsevier Science Ltd, is a premier journal dedicated to the advancement of knowledge in the fields of condensed matter physics and materials science. With an ISSN of 0960-8974 and an E-ISSN of 1878-4208, this esteemed journal has been at the forefront of research since its inception in 1990 and continues to publish cutting-edge findings until 2024. Recognized as Q1 in Condensed Matter Physics and Q2 in Materials Science (miscellaneous) as of 2023, it holds impressive Scopus rankings, placing it in the 89th and 81st percentiles of its respective categories. The journal aims to foster innovation and facilitate the exchange of ideas among researchers and professionals by showcasing significant developments in crystal growth and material characterization methodologies. Although it currently does not offer open access, the journal remains a vital resource for academia, providing comprehensive insights that drive forward the fields of physics and materials science, thereby benefiting both seasoned researchers and students alike.

Crystals is a premier open-access journal, published by MDPI since 2011, that focuses on the multidisciplinary fields of chemical engineering, condensed matter physics, inorganic chemistry, and materials science. With its E-ISSN 2073-4352, the journal is headquartered in Switzerland, and actively contributes to the global scientific community by facilitating the dissemination of high-quality research. Ranking in the Q2 quartile across multiple categories, including Chemical Engineering (miscellaneous) and Materials Science (miscellaneous) for 2023, Crystals provides a platform for innovative studies that span from fundamental research to practical applications. The journal's commitment to open access ensures that groundbreaking findings are readily available to researchers, professionals, and students alike, fostering an environment of collaboration and knowledge sharing that is essential in advancing the scientific understanding of crystalline materials.

JOURNAL OF CRYSTAL GROWTH, published by Elsevier, stands as a vital platform in the realm of condensed matter physics, inorganic chemistry, and materials chemistry. With its inception dating back to 1967 and a promising convergence continuing through 2024, this journal encompasses the latest research and advancements in crystal growth phenomena. Although it does not currently offer open access options, its rigorous peer-review process ensures high-quality scholarly contributions that are essential for researchers, professionals, and students alike. The journal's solid standing is reflected in its Scopus rankings, with placements in the third and second quartiles across relevant fields and notable percentiles. Operating from the heart of the Netherlands, JOURNAL OF CRYSTAL GROWTH not only fosters academic dialogue but also enhances the understanding of crystallization processes crucial for materials engineering and applied sciences, making it an indispensable resource for anyone dedicated to exploring the intricacies of crystal growth.

Computational Condensed Matter, a reputable journal published by Elsevier, serves as a critical platform for advancing the understanding of condensed matter physics and related fields. Since its inception in 2014, the journal has become a pivotal resource for researchers and professionals dedicated to exploring electronic, optical, and magnetic materials, as well as materials chemistry and general materials science. With its current standing in the Q3 quartile across multiple categories in 2023, it ranks within the 60th percentile for Materials Science (miscellaneous) and the 54th percentile for Condensed Matter Physics in Scopus, reflecting its growing influence and relevance in the scientific community. The journal aims to publish high-quality, peer-reviewed articles that can foster innovation and collaboration in computational methods applied to condensed matter systems. Researchers interested in cutting-edge insights and methodologies will find Computational Condensed Matter to be an invaluable addition to their academic resources. For those seeking to contribute to or stay informed about the latest advancements in the field, this journal is a must-read.

IUCrJ, published by the International Union of Crystallography, is a leading open-access journal dedicated to advancing knowledge in the fields of Biochemistry, Chemistry, Condensed Matter Physics, and Materials Science. Since its inception in 2014, IUCrJ has quickly established itself as a prestigious platform for high-quality research, achieving a remarkable record as a Q1 journal across its categories in 2023. With an increasing impact in the scientific community, evidenced by impressive Scopus rankings, IUCrJ offers unparalleled access to groundbreaking discoveries and methodologies that contribute to the understanding and application of crystallography in various disciplines. The journal’s commitment to open access ensures that research is readily available to a global audience, fostering collaboration and innovation in the scientific community. IUCrJ is an essential resource for researchers, professionals, and students aiming to stay at the forefront of crystallographic research and its interdisciplinary applications.

Acta Crystallographica Section E-Crystallographic Communications is a premier academic journal dedicated to the field of crystallography, published by the International Union of Crystallography. With an Open Access model established since 2008, this journal fosters the rapid dissemination of significant research findings in crystallographic studies, offering researchers and professionals the ability to freely share and access critical data. The journal is recognized for its contribution to various interdisciplinary categories, achieving notable standings in the 2023 rankings, categorized in the Q3 quartile in Chemistry (miscellaneous) and Materials Science, and the Q4 quartile in Condensed Matter Physics. By bridging the gap between theoretical and practical aspects, Acta Crystallographica Section E serves as a vital resource for those looking to deepen their understanding of crystallographic phenomena and its applications in science and engineering. The journal maintains its commitment to quality and innovation in research, ensuring a vibrant platform for scholarly communication within the scientific community.

X-Ray Structure Analysis Online is a pivotal academic journal dedicated to the field of analytical and materials chemistry, published by the Japan Society for Analytical Chemistry. Established in 2009, this journal serves as a vital platform for researchers and professionals dedicated to advancing the understanding of X-ray structural analysis techniques and their applications. With ISSN 1883-3578, it operates under rigorous peer-review standards, promoting high-quality research contributions. While the journal is currently categorized in the Q4 quartile for both Analytical Chemistry and Materials Chemistry, its focus on cultivating a deeper understanding of material properties through X-ray analysis remains crucial for ongoing developments in these fields. By providing an accessible outlet for innovative studies, X-Ray Structure Analysis Online supports the academic community in overcoming the challenges of a rapidly evolving scientific landscape. It is particularly valuable for those engaged in material and analytical research, offering insights that contribute to both theoretical foundations and practical applications.