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The study profile templates below describe the layout and scope of information that should be contained within a study profile and can serve as a guide for the preparation of study documents. Applicants may include additional information beyond that prescribed in a particular study profile; however, it should be done without affecting or changing the format and content of the template.

Characterization of New Compounds and Bioconjugates. ACS journals require a high standard of chemical characterization, to confirm the identity and purity of the compounds under study. Papers that explore conjugation conditions for multifunctional molecules, e.g., amino groups on proteins, should include analytical studies to identify the sequence positions of the residues affected. For medium-sized or larger peptides, evidence for homogeneity by separation methods of adequate resolving power and by amino acid analysis is normally required. For small organic molecules, the conventional practices of organic chemistry apply, including nuclear magnetic resonance data (for recommended practices see NMR guidelines available in the ACS Publishing Center here and elemental analyses and/or high resolution mass spectrometry of all new small molecules if practical. The numerical results for all elemental analyses should be included in Supporting Information.

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Authors are kindly requested to make use of the template.tex file embedded in the LaTeX Package since most of the definitions for the structure of manuscript elements are described there. Since we convert all typeset TeX files into XML, the expressions and markups have to be highly standardized. Therefore, please keep the following in mind:

The created file MyArticle.Rmd includes a YAML file header with a number of configurations and required metadata, such as authors and affiliations, running title, and special sections (e.g. code/data availability, acknowledgements). These options are explained within the document and can be deleted if not needed. The template also includes examples of text formatting, figure addition, table insertion, and citation/reference usage, etc.

This template uses the main LaTeX ARTICLE template for RSC journals. Copyright The Royal Society of Chemistry 2019. Use of the Overleaf platform and associated services (including the PCCP Template) is subject to the Overleaf terms of service.

Inorganic Chemistry publishes fundamental studies, both experimental and theoretical, on all topics of inorganic chemistry from across the periodic table, including but not limited to coordination chemistry, main-group chemistry, bioinorganic chemistry, organometallic chemistry, solid- state/materials/nanoscale chemistry, energy and photochemistry, catalysis, and theory/computation.

The journal places emphasis on scientifically rigorous studies of the synthesis and mechanisms, structure, thermodynamics, kinetics, reactivity, spectroscopy, bonding, and functional properties of new and significant known compounds. Only those manuscript submissions that sufficiently emphasize inorganic chemistry aspects will be considered. Illustrative examples of manuscripts that will not be considered include ones that describe poorly defined or characterized compounds or materials, or that are deemed to emphasize morphological, nanoscale, or larger scale attributes of materials, biological phenomena, analytical methods, speculative or predominantly technical aspects of theory, or technological applications. Reports of routine research describing incremental additions to the scientific literature are discouraged. More detailed discussion (organized by topic) of submissions that will be considered are presented below.

Coordination and Organometallic Chemistry: Fundamental studies of the design and synthesis of new coordination and organometallic complexes incorporating main group, transition metal, and/or lanthanide/actinide elements with tailored reactivity and/or functional electronic, optical, and magnetic properties are welcome. These studies should include details of coordination environment, electronic structure, bonding, magnetic properties, and/or reactivity probed through experimental and/or computational methods and involving spectroscopy, electrochemistry, and other characterization means. The added value to general knowledge in inorganic chemistry should be clearly visible, for example in the description of uncommon structures, bonding, reactivity, and/or proven potential for new molecular or materials applications (such as catalysis, sensing, and optics). Articles that focus solely on solid-state structures or synthetic organic applications are discouraged.

Bioinorganic Chemistry: Studies in the area of bioinorganic chemistry should emphasize new inorganic structures, solution chemistry, detailed mechanisms of biological efficacy or reactions, or spectroscopic properties. The inorganic chemistry must be central and contribute new perspectives to the field, for example in areas of biomimetic and bioinspired coordination chemistry, metalloproteins and metallodrugs, and metal-based probes. Manuscripts with a focus on biology that lack in-depth studies of inorganic chemistry aspects will not be considered.

Solid State, Materials, and Nanoscale Chemistry: Inorganic Chemistry encourages submissions that contribute significant new synthetic, mechanistic, or structural insight on well-characterized new or known molecular, nanostructured, or extended inorganic compounds (clusters and supramolecular compounds) and push the frontiers of functional inorganic chemistry-dependent materials properties, characterization techniques, or theoretical description. Manuscripts that emphasize technological applications or that describe routine syntheses and characterization, incremental advances for well-known families of compounds, routine formulations of known components, or phenomenological work that does not provide new inorganic chemistry insight will not be considered. For further guidance, see: (Nano)materials Chemistry: What Belongs at Inorganic Chemistry?

Energy and Photochemistry: Studies in the area of energy and photochemistry should emphasize new inorganic structures or coordination compounds with properties and functions related but not limited to electrical, redox, luminescence, excited states, photoredox sensitization, and energy-transfer chemistry or to applications in solar-energy conversion and storage. Contributions that focus on applications, including analytical techniques and photophysics, or on speculative theoretical aspects, will not be considered.

Catalysis: Studies on heterogeneous and homogeneous catalysis using inorganic or organometallic compounds and/or inorganic-organic hybrid compounds and materials as well as metallosupramolecules are welcome. The focus should be on inorganic chemistry aspects, in particular new complexes with interesting structures, bonding, coordination numbers, or electron configurations, rather than applications to organic synthesis or industrial process development with well-known compounds, for example.

Theory and Computation: Inorganic Chemistry welcomes studies that use state-of-the art theoretical/computational methods to contribute to conceptual advances in all areas of inorganic chemistry, especially those that combine experiment and theory. Studies that focus on technical aspects, for example the choice of density functionals and/or basis sets, or are largely speculative, that is, make predictions that cannot reasonably be subjected to experimental testing, will not be considered.

Communications are reports of unusual urgency, significance, and interest originating in all areas of inorganic chemistry. A statement from the authors describing why their manuscript meets these criteria is required in the cover letter. Communications must convey the scientific findings concisely in 2,200 words or less, which includes the abstract, main text, and figure captions, plus approximately four graphics (each typically 5 cm/2 inches long in a single column) and the TOC graphic. References and the TOC synopsis are not included in the word count. Communications must meet these length requirements before acceptance. Complete experimental work should appear in the Supporting Information; additional documentation in the Supporting Information is encouraged. Communications that contain X-ray crystallographic information must be accompanied by full documentation to be used as Supporting Information in the editorial and review process.

The templates facilitate the peer review process by allowing authors to place artwork and tables close to the point where they are discussed within the text. Learn more about document templates here.

Chemistry of Materials publishes original contributions on the forefront of research at the intersection of materials science and chemistry. Studies involving chemistry as a key component, which relate to the design, synthesis, characterization, processing, understanding and application of functional, or potentially functional, materials will be considered. Among the areas of interest are inorganic and organic solid-state chemistry, nanomaterials, biomaterials, thin films and polymers, and composite/hybrid materials. There is particular interest in papers focused upon the creation or development of innovative materials with new and potentially useful optical, electrical, magnetic, catalytic, or mechanical properties. We emphasize, however, that manuscripts on these topics must have at their heart, a focus on the chemistry of materials, and must describe a significant advance compared with prior work. Before solicitation of external reviews, submitted manuscripts are examined by at minimum of two editors to determine appropriateness for the journal, and to ensure sufficient evidence of a significant advance that is likely to be of broad interest to the materials chemistry community. ff782bc1db