Concepts in Magnetic Resonance Part A: Bridging Education and Research

Aims & Scope

Concepts in Magnetic Resonance Part A brings together clinicians, chemists, and physicists involved in the application of magnetic resonance techniques.

The journal welcomes contributions predominantly from the fields of magnetic resonance imaging (MRI), nuclear magnetic resonance (NMR), and electron paramagnetic resonance (EPR), but also encourages submissions relating to less common magnetic resonance imaging and analytical methods.

Contributors come from academic, governmental, and clinical communities, to disseminate the latest important experimental results from medical, non-medical, and analytical magnetic resonance methods, as well as related computational and theoretical advances.

Subject areas include (but are by no means limited to): -Fundamental advances in the understanding of magnetic resonance -Experimental results from magnetic resonance imaging (including MRI and its specialized applications) -Experimental results from magnetic resonance spectroscopy (including NMR, EPR, and their specialized applications) -Computational and theoretical support and prediction for experimental results -Focused reviews providing commentary and discussion on recent results and developments in topical areas of investigation -Reviews of magnetic resonance approaches with a tutorial or educational approach

Metrics & Ranking

Abstracting & Indexing

Journal is indexed in leading academic databases, ensuring global visibility and accessibility of our peer-reviewed research.

• Scopus
• Google Scholar
• Directory of Open Access Journals (DOAJ)
• Web of Science

Subjects & Keywords

Journal’s research areas, covering key disciplines and specialized sub-topics in Chemistry, designed to support cutting-edge academic discovery.

Licensing & Copyright

This journal operates under an Open Access model. Articles are freely accessible to the public immediately upon publication. The content is licensed under a Creative Commons Attribution 4.0 International License (CC BY 4.0), allowing users to share and adapt the work with proper attribution.

Copyright remains with the author(s), and no permission is required for non-commercial use, provided the original source is cited.

Policy Links

This section provides access to essential policy documents, guidelines, and resources related to the journal’s publication and submission processes.

• Aims scope
• Homepage
• Oa statement
• Author instructions
• License terms
• Review url
• Board url
• Copyright url
• Plagiarism url
• Preservation url
• Apc url
• License

Plagiarism Policy

This journal follows a plagiarism policy. All submitted manuscripts are screened using reliable plagiarism detection software to ensure originality and academic integrity. Authors are responsible for proper citation and acknowledgment of all sources, and any form of plagiarism, including self-plagiarism, will not be tolerated.

For more details, please refer to our official: Plagiarism Policy.

APC Details

The journal’s Article Processing Charge (APC) policies support open access publishing in Chemistry, ensuring accessibility and quality in research dissemination.

This journal requires an Article Processing Charge (APC) to support open access publishing, covering peer review, editing, and distribution. The current APC is 1,550.00 USD. Learn more.

Explore journals without APCs for alternative publishing options.

Most Cited Articles

The Most Cited Articles section features the journal's most impactful research, based on citation counts. These articles have been referenced frequently by other researchers, indicating their significant contribution to their respective fields.

• NMR spectroscopy in the study of carbohydrates: Characterizing the structural complexity

  Citation: 298

  Authors: William A.

• Time‐dependent diffusion coefficient as a probe of geometry

  Citation: 269

  Authors: Pabitra N.

• Super‐resolution in magnetic resonance imaging: A review

  Citation: 209

  Authors: Eric, Ivan W. K., Cher Heng, Chueh Loo

• The Stejskal–Tanner equation generalized for any gradient shape—an overview of most pulse sequences measuring free diffusion

  Citation: 189

  Authors: Davy

• Bicelles as model membranes for solid‐ and solution‐state NMR studies of membrane peptides and proteins

  Citation: 176

  Authors: Isabelle, Michèle

• Analysis of electric field gradient tensors at quadrupolar nuclei in common structural motifs

  Citation: 169

  Authors: Jochen, Shaohui, Robert W.

• How the 1D‐NOESY suppresses solvent signal in metabonomics NMR spectroscopy: An examination of the pulse sequence components and evolution

  Citation: 167

  Authors: Ryan T.

• Dielectric materials in magnetic resonance

  Citation: 162

  Authors: A.G.

• NMR studies of surfactants

  Citation: 146

  Authors: Olle, Peter, William S.

• Structural information from quadrupolar nuclei in solid state NMR

  Citation: 140

  Authors: Sharon E., Melinda J.