2026 Craig A. J. Fisher: 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	43	12217	11815	498	479	151	10531

Overview

Craig A. J. Fisher is affiliated with the University of Oxford in the United Kingdom. Their research spans significant areas within materials science and engineering, with a particular focus on materials chemistry and electronic engineering, alongside contributions in aerospace engineering, ceramics and composites, and inorganic chemistry.

Fisher's main fields of study are:

Materials Science
Engineering

The subfields within these areas include:

Materials Chemistry
Electrical and Electronic Engineering
Aerospace Engineering
Ceramics and Composites
Inorganic Chemistry

Key topics frequently addressed in their research are:

High-Temperature Coating Behaviors
Advanced ceramic materials synthesis
Ferroelectric and Piezoelectric Materials
Advancements in Solid Oxide Fuel Cells
Thermal Expansion and Ionic Conductivity
Nuclear materials and radiation effects
Advanced Condensed Matter Physics

Fisher's recent papers include:

Quantitative prediction of grain boundary thermal conductivities from local atomic environments, 2020, Nature Communications
Oxygen Affinity: The Missing Link Enabling Prediction of Proton Conductivities in Doped Barium Zirconates, 2020, Chemistry of Materials
A computational search for wurtzite-structured ferroelectrics with low coercive voltages, 2020, APL Materials
Dealumination of small-pore zeolites through pore-opening migration process with the aid of pore-filler stabilization, 2022, Science Advances
Spontaneously formed nanostructures in double perovskite rare-earth tantalates for thermal barrier coatings, 2021, Acta Materialia

Frequent co-authors collaborating with Fisher are:

Akihide Kuwabara
T. Ogawa
Hiroki Moriwake
Yuichi Ikuhara
Seung-Hyeon Kim

Common venues for Fisher's publications include:

Ceramics International
ECS Meeting Abstracts
Materials Today Communications
Journal of the Ceramic Society of Japan
Physical Chemistry Chemical Physics

Best Publications

Atomic-scale investigation of defects, dopants, and lithium transport in the LiFePO4 olivine-type battery material

M. Saiful Islam;Daniel J. Driscoll;Craig A. J. Fisher;Peter R. Slater

1360
Citations
Lithium and sodium battery cathode materials: computational insights into voltage, diffusion and nanostructural properties

M. Saiful Islam;Craig A. J. Fisher

1212
Citations
Oxide-ion and proton conducting electrolyte materials for clean energy applications: structural and mechanistic features

Lorenzo Malavasi;Craig A. J. Fisher;M. Saiful Islam

1025
Citations
Lithium Battery Materials LiMPO4 (M = Mn, Fe, Co, and Ni): Insights into Defect Association, Transport Mechanisms, and Doping Behavior

Craig A. J. Fisher;Veluz M. Hart Prieto;M. Saiful Islam

659
Citations
Characterization of the interface between LiCoO2 and Li7La3Zr2O12 in an all-solid-state rechargeable lithium battery

Ki Hyun Kim;Yasutoshi Iriyama;Kazuo Yamamoto;Shota Kumazaki

449
Citations
Surface structures and crystal morphologies of LiFePO4: relevance to electrochemical behaviour

Craig A. J. Fisher;M. Saiful Islam

341
Citations
Dynamic Visualization of the Electric Potential in an All‐Solid‐State Rechargeable Lithium Battery

Kazuo Yamamoto;Yasutoshi Iriyama;Toru Asaka;Tsukasa Hirayama

340
Citations
Why is sodium-intercalated graphite unstable?

Hiroki Moriwake;Akihide Kuwabara;Craig A. J. Fisher;Yuichi Ikuhara

323
Citations
Accelerated Materials Design of Lithium Superionic Conductors Based on First-Principles Calculations and Machine Learning Algorithms

Koji Fujimura;Atsuto Seko;Yukinori Koyama;Akihide Kuwabara

261
Citations
Tersoff Potential Parameters for Simulating Cubic Boron Carbonitrides

Katsuyuki Matsunaga;Craig Fisher;Hideaki Matsubara

203
Citations
First‐Principles Calculations of Lithium‐Ion Migration at a Coherent Grain Boundary in a Cathode Material, LiCoO2

Hiroki Moriwake;Akihide Kuwabara;Craig A. J. Fisher;Rong Huang

195
Citations
Microstructural Changes in LiNi0.8Co0.15Al0.05O2 Positive Electrode Material during the First Cycle

Shijian Zheng;Rong Huang;Yoshinari Makimura;Yoshio Ukyo

191
Citations
Oxygen-vacancy ordering at surfaces of lithium manganese(III,IV) oxide spinel nanoparticles.

Rong Huang;Yumi H. Ikuhara;Teruyasu Mizoguchi;Scott D. Findlay

169
Citations
Defect chemistry and lithium-ion migration in polymorphs of the cathode material Li2MnSiO4

Craig A. J. Fisher;Navaratnarajah Kuganathan;M. Saiful Islam

158
Citations
Defect, protons and conductivity in brownmillerite-structured Ba2In2O5

C.A.J. Fisher;M.S. Islam

144
Citations
Efficient, low-cost solar thermoelectric cogenerators comprising evacuated tubular solar collectors and thermoelectric modules

Ming Zhang;Lei Miao;Yi Pu Kang;Sakae Tanemura;Sakae Tanemura

135
Citations
Lithium Atom and A-Site Vacancy Distributions in Lanthanum Lithium Titanate

Xiang Gao;Craig A. J. Fisher;Teiichi Kimura;Yumi H. Ikuhara

128
Citations
Domain boundaries and their influence on Li migration in solid-state electrolyte (La,Li)TiO3

Hiroki Moriwake;Xiang Gao;Akihide Kuwabara;Craig A.J. Fisher

98
Citations
Real-time direct observation of Li in LiCoO2 cathode material

Rong Huang;Taro Hitosugi;Scott D. Findlay;Craig A. J. Fisher

92
Citations
Oxygen loss and surface degradation during electrochemical cycling of lithium-ion battery cathode material LiMn2O4

Xiang Gao;Yumi H. Ikuhara;Craig A. J. Fisher;Rong Huang

85
Citations
Cost-effective nanoporous SiO2–TiO2 coatings on glass substrates with antireflective and self-cleaning properties

Lei Miao;Li Fen Su;Sakae Tanemura;Sakae Tanemura;Craig A.J. Fisher

84
Citations