2026 David J. Dunlop: Earth Science Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Earth Science	69	1027	906	47	43	237	21677

Research.com Recognitions

1990 - Fellow of the Royal Society of Canada Academy of Science
1987 - Fellow of American Geophysical Union (AGU)

Overview

David J. Dunlop is affiliated with the University of Toronto in Canada. Their research primarily spans the field of Materials Science, with a particular focus on Materials Chemistry. They have contributed substantially to related areas including Surgery, Organic Chemistry, Biomedical Engineering, and Geophysics.

The main topics addressed in their work include:

Crystallization and Solubility Studies
X-ray Diffraction in Crystallography
Orthopaedic implants and arthroplasty
Total Knee Arthroplasty Outcomes
Luminescence and Fluorescent Materials
Orthopedic Infections and Treatments
Organometallic Complex Synthesis and Catalysis

Dunlop has frequently published in the following venues:

The Cambridge Structural Database
Hip International
Advanced Healthcare Materials
Geophysical Journal International
ChemPlusChem

Significant recent papers authored or co-authored by Dunlop include:

"Excited-State (Anti)Aromaticity Explains Why Azulene Disobeys Kasha's Rule," published in 2023 in the Journal of the American Chemical Society
"Luminescent Cationic Group 4 Metallocene Complexes Stabilized by Pendant N-Donor Groups," published in 2021 in Inorganic Chemistry
"Hydrodehalogenation of organohalides by Et₃SiH catalysed by group 4 metal complexes and B(C₆F₅)₃," published in 2020 in Dalton Transactions

Other recent papers from the broader research context include "Fluorinated Ferrocene Moieties as a Platform for Redox-Responsive Polymer ¹⁹F MRI Theranostics," 2021, Macromolecules, and "Pharmacokinetics of Intramuscularly Administered Thermoresponsive Polymers," 2022, Advanced Healthcare Materials.

Frequent collaborators of Dunlop's work include:

Martin Lamač
Róbert Gyepes
Pavel Kubát
Michal Horáček
Ludmila Šimková

Throughout their career, Dunlop has received recognition such as:

Fellow of the Royal Society of Canada in 1990, awarded by the Academy of Science
Fellow of the American Geophysical Union (AGU) in 1987

Best Publications

Rock Magnetism: Fundamentals and Frontiers

David J. Dunlop;Özden Özdemir

3298
Citations
Theory and application of the Day plot (Mrs/Ms versus Hcr/Hc) 1. Theoretical curves and tests using titanomagnetite data

David J. Dunlop

1891
Citations
Theory and application of the Day plot (Mrs/Ms versus Hcr/Hc) 2. Application to data for rocks, sediments, and soils

David J. Dunlop

881
Citations
Magnetization changes caused by burial and uplift

G. Pullaiah;E. Irving;K.L. Buchan;D.J. Dunlop

733
Citations
The effect of oxidation on the Verwey transition in magnetite

Özden Özdemir;David J. Dunlop;Bruce M. Moskowitz

707
Citations
Superparamagnetic and single-domain threshold sizes in magnetite

D. J. Dunlop

494
Citations
The rock magnetism of fine particles

David J. Dunlop

395
Citations
Hysteresis properties of magnetite and their dependence on particle size: A test of pseudo‐single‐domain remanence models

David J. Dunlop

330
Citations
A generalization of the demagnetizing tensor for nonuniform magnetization

Andrew J. Newell;Wyn Williams;David J. Dunlop

322
Citations
An experimental evaluation of single domain theories

David J. Dunlop;Gordon F. West

311
Citations
Magnetic Mineralogy of Unheated and Heated Red Sediments by Coercivity Spectrum Analysis

D. J. Dunlop

291
Citations
Magnetic properties of hydrothermally recrystallized magnetite crystals.

Franz Heider;David J. Dunlop;Naoji Sugiura

253
Citations
Changes in remanence, coercivity and domain state at low temperature in magnetite

Özden Özdemir;David J. Dunlop;Bruce M. Moskowitz

245
Citations
Morin transition in hematite: Size dependence and thermal hysteresis

Özden Özdemir;David J. Dunlop;Thelma S. Berquó

232
Citations
Hallmarks of maghemitization in low-temperature remanence cycling of partially oxidized magnetite nanoparticles

Özden Özdemir;David J. Dunlop

216
Citations
Three-dimensional micromagnetic modelling of ferromagnetic domain structure

Wyn Williams;David J. Dunlop

213
Citations
First-order reversal curve (FORC) diagrams for pseudo-single-domain magnetites at high temperature

Adrian R. Muxworthy;David J. Dunlop

205
Citations
Magnetic properties and opaque mineralogy of drilled submarine intrusive rocks

David J. Dunlop;Michel Prévot

201
Citations
Hysteresis and coercivity of hematite

Özden Özdemir;David J. Dunlop

174
Citations
Thermoremanence and Néel temperature of goethite

Özden Özdemir;David J. Dunlop

169
Citations
Theory of the magnetic viscosity of lunar and terrestrial rocks

David J. Dunlop

165
Citations

Frequent Co-Authors

Adrian R. Muxworthy Imperial College London

Wyn Williams University of Edinburgh

Michael McWilliams Stanford University

Glenn A. Milne University of Ottawa

Derek York University of Toronto

Lauri J. Pesonen University of Helsinki

Gunther Kletetschka Charles University

Michael J Jackson University of Minnesota

David L. Griscom United States Naval Research Laboratory

Martin Moskovits University of California, Santa Barbara

External Links

Personal website of David J. Dunlop

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