Aims & Scope

Aims

Organometallic Science (OS) is a peer-reviewed international journal dedicated to advancing the field of organometallic chemistry and its interdisciplinary applications. The journal provides a dynamic forum for the publication of high-quality original research, comprehensive reviews, and insightful perspectives that deepen our understanding of organometallic compounds, their synthesis, structure, reactivity, and applications across diverse areas. By embracing both established principles and innovative approaches, OS aims to provide a deeper understanding of organometallic chemistry and stimulate future research directions that address global scientific and technological challenges. It is published quarterly online by Scilight Press.

Scope

The scope of the journal includes, but is not limited to:

  • Synthesis and Reactivity: Fundamental and applied studies on the synthesis, characterization, and reactivity of organometallic compounds, including the development of novel methodologies and elucidation of reaction mechanisms.
  • Catalysis: Research on the development and application of organometallic catalysts in both homogeneous and heterogeneous systems, exploring their efficiency, selectivity, and mechanistic pathways.
  • Advanced Materials: Studies on organometallic materials for a wide range of applications, including electronics, photonics, energy conversion, and functional devices.
  • Medicinal Chemistry: Investigations into organometallic complexes for medicinal chemistry, including their design, biological evaluation, and potential therapeutic applications.
  • Nanomaterials: Submissions addressing the application of organometallic science to nanomaterials are encouraged. Topics of interest include, but are not limited to, organometallic polymers, nanoparticles, dendrimers, carbon nanodots (CNDs), graphene, quantum dots, metal-organic frameworks (MOFs), and other nanoscale systems incorporating organometallic chemistry.
  • Interfacial Systems: Studies focusing on organometallic science at interfaces, including research on surface modifications, interfacial catalysis, and the development of functional materials where interfacial phenomena are key.
  • Interdisciplinary Approaches: Research bridging organometallic chemistry with biology, materials science, environmental science, and engineering, highlighting the multidisciplinary impact of this field.
  • Emerging Trends and Innovations: Studies on sustainable practices, green chemistry, and the integration of advanced technologies to further explore and expand the applications of organometallic systems.
  • Artificial Intelligence in Organometallic Science: Innovative work applying AI and machine learning models for the design, simulation, prediction, and analysis of organometallic systems, aiming to accelerate discovery and deepen mechanistic insights.
  • Theoretical and Computational Studies: Investigations employing computational chemistry and theoretical models to elucidate bonding, electronic structure, and reaction pathways in organometallic compounds.