2026 Matthew G. Tucker: Materials Science Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Materials Science	57	7966	7702	1982	1840	246	11574
Chemistry	54	12556	11303	3339	2733	225	11105

Overview

Matthew G. Tucker is affiliated with Oak Ridge National Laboratory in the United States. Their research centers around materials science, with a primary focus on materials chemistry, electronic, optical and magnetic materials, geophysics, condensed matter physics, and radiation.

Their work encompasses several main topics that include:

X-ray Diffraction in Crystallography
Ferroelectric and Piezoelectric Materials
High-pressure Geophysics and Materials
Multiferroics and Related Materials
Nuclear Physics and Applications
Advanced Condensed Matter Physics
Magnetic and Transport Properties of Perovskites and Related Materials

Matthew G. Tucker has contributed to numerous publications, particularly in prominent journals such as Acta Crystallographica Section A Foundations and Advances, Nature Communications, Journal of Applied Crystallography, Journal of the American Chemical Society, and Physical Review Letters.

Frequent coauthors include:

Marshall McDonnell
Michelle Everett
Jun Chen
Yuanpeng Zhang
Hui Liu

Significant papers from their recent work are:

Structure and properties of densified silica glass: characterizing the order within disorder, 2020, NPG Asia Materials
Achieving giant electrostrain of above 1% in (Bi,Na)TiO₃-based lead-free piezoelectrics via introducing oxygen-defect composition, 2023, Science Advances
Predicting short-range order and correlated phenomena in disordered crystalline materials, 2020, Science Advances
Outstanding Energy-Storage Density Together with Efficiency of above 90% via Local Structure Design, 2023, Journal of the American Chemical Society
New capabilities for enhancement of RMCProfile: instrumental profiles with arbitrary peak shapes for structural refinements using the reverse Monte Carlo method, 2020, Journal of Applied Crystallography

Their research output reflects a consistent engagement with advanced topics in crystallography, materials chemistry, and condensed matter physics, often exploring structural refinements, energy storage efficiency, and material property characterization at different pressure and defect states.

Best Publications

Colossal Positive and Negative Thermal Expansion in the Framework Material Ag3[Co(CN)6]

Andrew L. Goodwin;Mark Calleja;Michael J. Conterio;Martin T. Dove

735
Citations
Correlated defect nanoregions in a metal–organic framework

Matthew J Cliffe;Wei Wan;Xiaodong Zou;Philip A Chater

725
Citations
RMCProfile: reverse Monte Carlo for polycrystalline materials.

Matthew G Tucker;David A Keen;Martin T Dove;Andrew L Goodwin

606
Citations
Colossal negative thermal expansion in BiNiO3 induced by intermetallic charge transfer

Masaki Azuma;Masaki Azuma;Wei-tin Chen;Wei-tin Chen;Hayato Seki;Michal Czapski

485
Citations
Structure and Properties of an Amorphous Metal-Organic Framework

Thomas D. Bennett;Andrew L. Goodwin;Andrew L. Goodwin;Martin T. Dove;David A. Keen;David A. Keen

355
Citations
An assessment of the lattice strain in the CrMnFeCoNi high-entropy alloy

Lewis Owen;Lewis Owen;EJ Pickering;HY Playford;Howard Stone

324
Citations
Large negative linear compressibility of Ag3[Co(CN)6]

Andrew L. Goodwin;David A. Keen;Matthew G. Tucker

277
Citations
Structural changes underlying the diffuse dielectric response in AgNbO 3

Igor Levin;Victor Krayzman;Joseph C. Woicik;Jenia Karapetrova

222
Citations
Negative thermal expansion in ZrW2O8: mechanisms, rigid unit modes, and neutron total scattering.

Matthew G. Tucker;Matthew G. Tucker;Andrew L. Goodwin;Martin T. Dove;David A. Keen;David A. Keen

213
Citations
Bifurcated Polarization Rotation in Bismuth-Based Piezoelectrics

Dean Samuel Keeble;Emma R. Barney;David A. Keen;Matthew G. Tucker

193
Citations
Pressure-induced spin-state transition in BiCoO3.

Kengo Oka;Masaki Azuma;Wei-tin Chen;Wei-tin Chen;Hitoshi Yusa

189
Citations
A detailed structural characterization of quartz on heating through the α–β phase transition

M. G. Tucker;D. A. Keen;M. T. Dove

187
Citations
Characterization of Structural Disorder in γ-Ga2O3

Helen. Y. Playford;Alex C. Hannon;Matthew G. Tucker;Daniel M. Dawson

166
Citations
Rational Design of Materials with Extreme Negative Compressibility: Selective Soft-Mode Frustration in KMn[Ag(CN)2]3

Andrew B. Cairns;Amber L. Thompson;Matthew G. Tucker;Julien Haines

154
Citations
Pressure-Induced Intermetallic Valence Transition in BiNiO3

Masaki Azuma;Sandra Carlsson;Jennifer Rodgers;Matthew G. Tucker

154
Citations
Temperature- and pressure-driven spin-state transitions in LaCoO 3

D. P. Kozlenko;N. O. Golosova;Z. Jirák;L. S. Dubrovinsky

152
Citations
High-Pressure Transformation of SiO2 Glass from a Tetrahedral to an Octahedral Network: A Joint Approach Using Neutron Diffraction and Molecular Dynamics

Anita Zeidler;Kamil Wezka;Ruth F Rowlands;Dean A J Whittaker

151
Citations
Pressure Response of an Organic−Inorganic Perovskite: Methylammonium Lead Bromide

I. P. Swainson;M. G. Tucker;D. J. Wilson;and B. Winkler

150
Citations
Neutron total scattering method simultaneous determination of long-range and short-range order in disordered materials

Martin T. Dove;Matthew G. Tucker;David A. Keen

150
Citations
PEARL: the high pressure neutron powder diffractometer at ISIS

C.L. Bull;N.P. Funnell;M.G. Tucker;S. Hull

148
Citations
Displacive Phase Transitions and Magnetic Structures in Nd-Substituted BiFeO3

I. Levin;M. G. Tucker;H. Wu;V. Provenzano

147
Citations