Solid State Nuclear Magnetic Resonance

Top Research Topics at Solid State Nuclear Magnetic Resonance?

The concepts of Analytical chemistry, Solid-state nuclear magnetic resonance, Nuclear magnetic resonance, Nuclear magnetic resonance spectroscopy and Spectral line are tackled in the journal. The journal focuses on Analytical chemistry but the discussions also offer insight into other areas such as Relaxation (NMR), Quadrupole, Spinning, NMR spectra database and Molecular physics. It explores issues in Relaxation (NMR) which can be linked to other research areas like Proton NMR, Proton and Molecular dynamics.

Topics in Molecular physics were tackled in line with various other fields like Dipole, Heteronuclear molecule and Condensed matter physics. Issues in Solid-state nuclear magnetic resonance were discussed, taking into consideration concepts from other disciplines like Anisotropy, Crystallography, Spectroscopy, Magic angle spinning and Chemical shift. The studies on Crystallography discussed can also contribute to research in the domains of Molecule and Hydrogen bond.

Research on Magic angle spinning addressed in the journal frequently intersections with the field of Magic angle. Nuclear magnetic resonance research featured in Solid State Nuclear Magnetic Resonance incorporates concerns from various other topics such as Spin (physics) and Atomic physics. The Nuclear magnetic resonance spectroscopy works featured in it incorporate elements from Two-dimensional nuclear magnetic resonance spectroscopy and Carbon-13 NMR.

• Analytical chemistry (36.36%)
• Solid-state nuclear magnetic resonance (33.54%)
• Nuclear magnetic resonance (22.04%)

What are the most cited papers published in the journal?

• Two-dimensional magic-angle spinning isotropic reconstruction sequences for quadrupolar nuclei. (351 citations)
• Conventions for the reporting of nuclear magnetic shielding (or shift) tensors suggested by participants in the NATO ARW on NMR shielding constants at the University of Maryland, College Park, July 1992. (298 citations)
• The PAW/GIPAW approach for computing NMR parameters: a new dimension added to NMR study of solids. (287 citations)

Research areas of the most cited articles at Solid State Nuclear Magnetic Resonance:

The most cited publications mostly deal with topics like Analytical chemistry, Solid-state nuclear magnetic resonance, Nuclear magnetic resonance spectroscopy, Nuclear magnetic resonance and Spectral line. The journal articles with studies in Analytical chemistry featured incorporate elements of Spectroscopy, Resonance, NMR spectra database, Magic angle spinning and Chemical shift. While Solid-state nuclear magnetic resonance is the focus of the published articles, it also provides insights into the studies of Crystallography, Polarization (waves), Molecular physics, Spins and Catalysis.

What topics the last edition of the journal is best known for?

• Quantum mechanics
• Organic chemistry
• Oxygen

The previous edition focused in particular on these issues:

The foci of Solid State Nuclear Magnetic Resonance are Solid-state nuclear magnetic resonance, Chemical physics, Heteronuclear molecule, Homonuclear molecule and Spectroscopy. The Solid-state nuclear magnetic resonance study featured in Solid State Nuclear Magnetic Resonance draws connections with the study of Molecule. Solid State Nuclear Magnetic Resonance explores topics in Chemical physics which can be helpful for research in disciplines like Deuterium, Spectral line, Deuterium NMR and Proton.

The research on Heteronuclear molecule featured in the journal combines topics in other fields like Magic angle spinning and Local field. The featured Homonuclear molecule research encompasses issues not only in the field but also those in the adjacent area of disciplines such as

• Molecular physics, Fermi contact interaction, Spin diffusion, Dephasing and Coupling most often made with reference to Magnetic dipole–dipole interaction,
• Model lipid bilayer that intertwine with fields like Crystallography.. Some problems in Spectroscopy that were presented in Solid State Nuclear Magnetic Resonance overlapped with concepts under Fragment (logic), Computational chemistry, Tetracoordinate and Chemical shift.

The most cited articles from the last journal are:

• Accurate fragment-based 51-V chemical shift predictions in molecular crystals. (1 citations)
• Efficient symmetry-based γ-encoded DQ recoupling sequences for suppression of t1-noise in solid-state NMR spectroscopy at fast MAS. (1 citations)
• Operando NMR characterization of a metal-air battery using a double-compartment cell design. (1 citations)

Papers citation over time

A key indicator for each journal is its effectiveness in reaching other researchers with the papers published at that venue.

The chart below presents the interquartile range (first quartile 25%, median 50% and third quartile 75%) of the number of citations of articles over time.

Top authors and change over time

The top authors publishing in Solid State Nuclear Magnetic Resonance (based on the number of publications) are:

• Jean-Paul Amoureux (41 papers) absent at the last edition,
• Hellmut Eckert (30 papers) absent at the last edition,
• Chaohui Ye (23 papers) absent at the last edition,
• Mark E. Smith (22 papers) absent at the last edition,
• Julien Trébosc (20 papers) absent at the last edition.

The overall trend for top authors publishing in this journal is outlined below. The chart shows the number of publications at each edition of the journal for top authors.

Top affiliations and change over time

Only papers with recognized affiliations are considered

The top affiliations publishing in Solid State Nuclear Magnetic Resonance (based on the number of publications) are:

• Centre national de la recherche scientifique (65 papers) published 1 paper at the last edition the same number as at the previous edition,
• Polish Academy of Sciences (62 papers) absent at the last edition,
• Max Planck Society (47 papers) absent at the last edition,
• Chinese Academy of Sciences (45 papers) published 1 paper at the last edition the same number as at the previous edition,
• University of Warwick (38 papers) published 1 paper at the last edition, 1 less than at the previous edition.

The overall trend for top affiliations publishing in this journal is outlined below. The chart shows the number of publications at each edition of the journal for top affiliations.

Publication chance based on affiliation

The publication chance index shows the ratio of articles published by the best research institutions in the journal edition to all articles published within that journal. The best research institutions were selected based on the largest number of articles published during all editions of the journal.

The chart below presents the percentage ratio of articles from top institutions (based on their ranking of total papers).Top affiliations were grouped by their rank into the following tiers: top 1-10, top 11-20, top 21-50, and top 51+. Only articles with a recognized affiliation are considered.

During the most recent 2021 edition, 6.67% of publications had an unrecognized affiliation. Out of the publications with recognized affiliations, 28.57% were posted by at least one author from the top 10 institutions publishing in the journal. Another 0.00% included authors affiliated with research institutions from the top 11-20 affiliations. Institutions from the 21-50 range included 0.00% of all publications and 71.43% were from other institutions.

Returning Authors Index

A very common phenomenon observed among researchers publishing scientific articles is the intentional selection of journals they have already attended in the past. In particular, it is worth analyzing the case when the authors participate in the same journal from year to year.

The Returning Authors Index presented below illustrates the ratio of authors who participated in both a given as well as the previous edition of the journal in relation to all participants in a given year.

Returning Institution Index

The graph below shows the Returning Institution Index, illustrating the ratio of institutions that participated in both a given and the previous edition of the conference in relation to all affiliations present in a given year.

The experience to innovation index

Our experience to innovation index was created to show a cross-section of the experience level of authors publishing in a journal. The index includes the authors publishing at the last edition of a journal, grouped by total number of publications throughout their academic career (P) and the total number of citations of these publications ever received (C).

The group intervals were selected empirically to best show the diversity of the authors' experiences, their labels were selected as a convenience, not as judgment. The authors were divided into the following groups:

• Novice - P < 5 or C < 25 (the number of publications less than 5 or the number of citations less than 25),
• Competent - P < 10 or C < 100 (the number of publications less than 10 or the number of citations less than 100),
• Experienced - P < 25 or C < 625 (the number of publications less than 25 or the number of citations less than 625),
• Master - P < 50 or C < 2500 (the number of publications less than 50 or the number of citations less than 2500),
• Star - P ≥ 50 and C ≥ 2500 (both the number of publications greater than 50 and the number of citations greater than 2500).

The chart below illustrates experience levels of first authors in cases of publications with multiple authors.