2026 Michael T. Lanagan: 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	63	6181	5982	1580	1479	460	14260

Overview

Michael T. Lanagan is affiliated with Pennsylvania State University in the United States. Their research contributions are primarily situated within the fields of Engineering and Materials Science, with a particular emphasis on Materials Chemistry, Electrical and Electronic Engineering, and Biomedical Engineering as significant subfields.

The scientist's work extensively covers topics related to Ferroelectric and Piezoelectric Materials, Dielectric materials and actuators, and Microwave Dielectric Ceramics Synthesis. Other research interests include Advanced Sensor and Energy Harvesting Materials, Glass properties and applications, Advanced MRI Techniques and Applications, and Electromagnetic wave absorption materials.

Michael T. Lanagan has contributed to various publication venues across their career. Notable frequent venues include:

Proceedings on CD-ROM - International Society for Magnetic Resonance in Medicine. Scientific Meeting and Exhibition/Proceedings of the International Society for Magnetic Resonance in Medicine, Scientific Meeting and Exhibition
Journal of the American Ceramic Society
SSRN Electronic Journal
Applied Physics Letters
Magnetic Resonance in Medicine

The scientist has collaborated frequently with several coauthors. The most common collaborators are:

Qing Yang
Steven E. Perini
Eugene Furman
Mengxue Yuan
Ramakrishnan Rajagopalan

Recent papers authored by Michael T. Lanagan and their colleagues include:

Highly Stretchable Polymer Composite with Strain-Enhanced Electromagnetic Interference Shielding Effectiveness, 2020, Advanced Materials
Thermally Stable Low-Loss Polymer Dielectrics Enabled by Attaching Cross-Linkable Antioxidant to Polypropylene, 2020, ACS Applied Materials & Interfaces
High-Field Dielectric Properties of Oriented Poly(vinylidene fluoride-co-hexafluoropropylene): Structure-Dielectric Property Relationship and Implications for Energy Storage Applications, 2020, ACS Applied Polymer Materials
Enhanced energy storage properties of thermostable sandwich-structured BaTiO3/polyimide nanocomposites with better controlled interfaces, 2020, Materials & Design
Dielectric polarizability of alkali and alkaline-earth modified silicate glasses at microwave frequency, 2020, Applied Physics Letters

Best Publications

Homogeneous/Inhomogeneous-Structured Dielectrics and their Energy-Storage Performances.

Zhonghua Yao;Zhe Song;Hua Hao;Zhiyong Yu

1161
Citations
Cold Sintering: A Paradigm Shift for Processing and Integration of Ceramics

Jing Guo;Hanzheng Guo;Amanda L. Baker;Michael T. Lanagan

505
Citations
Reconfigurable Antennas

R. L. Haupt;M. Lanagan

374
Citations
Highly Stretchable Polymer Composite with Strain-Enhanced Electromagnetic Interference Shielding Effectiveness.

Bin Yao;Bin Yao;Wei Hong;Tianwu Chen;Zhubing Han

372
Citations
Nanoparticle, Size, Shape, and Interfacial Effects on Leakage Current Density, Permittivity, and Breakdown Strength of Metal Oxide−Polyolefin Nanocomposites: Experiment and Theory

Neng Guo;Sara A. DiBenedetto;Pratyush Tewari;Michael T. Lanagan

319
Citations
Cold Sintering Process of Composites: Bridging the Processing Temperature Gap of Ceramic and Polymer Materials

Jing Guo;Seth S. Berbano;Hanzheng Guo;Amanda L. Baker

317
Citations
In Situ Catalytic Encapsulation of Core-Shell Nanoparticles Having Variable Shell Thickness: Dielectric and Energy Storage Properties of High-Permittivity Metal Oxide Nanocomposites

Zhong Li;Lisa A. Fredin;Pratyush Tewari;Sara A. Dibenedetto

281
Citations
Structural study of an unusual cubic pyrochlore Bi1.5Zn0.92Nb1.5O6.92

Igor Levin;T. G. Amos;J. C. Nino;T. A. Vanderah

274
Citations
Anomalous broad dielectric relaxation in Bi 1.5 Zn 1.0 Nb 1.5 O 7 pyrochlore

Stanislav Kamba;Viktor Porokhonskyy;Alexej Pashkin;Viktor Bovtun

254
Citations
Dielectric relaxation in Bi2O3–ZnO–Nb2O5 cubic pyrochlore

Juan C. Nino;Michael T. Lanagan;Clive A. Randall

240
Citations
Structure and electrical properties of lead-free Bi0.5Na0.5TiO3-based ceramics for energy-storage applications

Qi Xu;Qi Xu;Hanxing Liu;Lin Zhang;Juan Xie

221
Citations
Synthesis of highly pure bismuth-2223 by a two-powder process

S.E. Dorris;B.C. Prorok;M.T. Lanagan;S. Sinha

199
Citations
Cold sintering process: A new era for ceramic packaging and microwave device development

Jing Guo;Amanda L. Baker;Hanzheng Guo;Michael Lanagan

196
Citations
Dielectric behavior and impedance spectroscopy in lead-free BNT–BT–NBN perovskite ceramics for energy storage

Qi Xu;Qi Xu;Michael T. Lanagan;Xuechen Huang;Juan Xie

188
Citations
Complex Permittivity of Graphite, Carbon Black and Coal Powders in the Ranges of X-band Frequencies (8.2 to 12.4 GHz) and between 1 and 10 GHz

Masahiro Hotta;Miyuki Hayashi;Michael Thomas Lanagan;Dinesh Kumar Agrawal

181
Citations
Dielectric relaxation in dimethyl sulfoxide/water mixtures studied by microwave dielectric relaxation spectroscopy.

Zijie Lu;Evangelos Manias;Digby D. Macdonald;Michael Lanagan

173
Citations
BaTiO3-Based ceramics for tunable microwave applications

Antonio Feteira;Derek C. Sinclair;Ian M. Reaney;Yoshitaka Somiya

172
Citations
Dielectric measurements on substrate materials at microwave frequencies using a cavity perturbation technique

D. C. Dube;Michael T. Lanagan;J. H. Kim;S. J. Jang

171
Citations
Microwave Dielectric Properties and Low-Temperature Cofiring of BaTe4O9 with Aluminum Metal Electrode

Do Kyun Kwon;Michael T. Lanagan;Thomas R. Shrout

169
Citations
Enhanced Energy Storage and Suppressed Dielectric Loss in Oxide Core–Shell–Polyolefin Nanocomposites by Moderating Internal Surface Area and Increasing Shell Thickness

Lisa A. Fredin;Zhong Li;Mark A. Ratner;Michael T. Lanagan

155
Citations