2026 Eckhard Quandt: 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	62	6454	6241	377	365	358	14402

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Materials Science

6454

6241

377

365

358

14402

Overview

Eckhard Quandt is affiliated with Kiel University in Germany and conducts research primarily in the fields of Materials Science and Engineering. Their body of work includes a strong focus on materials chemistry, biomedical engineering, electronic, optical and magnetic materials, electrical and electronic engineering, and mechanical engineering.

The scientist's research spans several specific topics, including:

Acoustic Wave Resonator Technologies
Ferroelectric and Piezoelectric Materials
Multiferroics and related materials
Shape Memory Alloy Transformations
Magnetic Field Sensors Techniques
Advanced Materials and Mechanics
Magneto-Optical Properties and Applications

Recent papers authored or co-authored by Eckhard Quandt cover diverse aspects of magnetoelectric materials and devices, sensor systems, thin films, and shape memory alloys. Notable publications include:

"Roadmap on Magnetoelectric Materials and Devices," 2021, published in IEEE Transactions on Magnetics
"AlScN-based MEMS magnetoelectric sensor," 2020, published in Applied Physics Letters
"Quantitative Evaluation for Magnetoelectric Sensor Systems in Biomagnetic Diagnostics," 2022, published in Sensors
"Magnetic anisotropy controlled FeCoSiB thin films for surface acoustic wave magnetic field sensors," 2020, published in Applied Physics Letters
"Origami-inspired thin-film shape memory alloy devices," 2021, published in Scientific Reports

Frequent co-authors collaborating with Eckhard Quandt include Michael Höft, Dirk Meyners, Jeffrey McCord, Lars Bumke, and Viktor Schell, indicating a consistent research network in related fields over multiple publications.

Their work is often published in journals such as Scientific Reports, Sensors, Shape Memory and Superelasticity, arXiv (Cornell University), and Applied Physics Letters, reflecting a consistent engagement with both interdisciplinary and specialized venues.

Best Publications

New materials for micro-scale sensors and actuators An engineering review

Stephen A. Wilson;Renaud P.J. Jourdain;Qi Zhang;Robert A. Dorey

683
Citations
Ultralow-fatigue shape memory alloy films

Christoph Chluba;Wenwei Ge;Rodrigo Lima de Miranda;Julian Strobel

528
Citations
DETERMINATION OF ELASTIC MODULUS OF THIN LAYERS USING NANOINDENTATION

J. Menčík;D. Munz;E. Quandt;E. R. Weppelmann

448
Citations
Caloric Effects in Ferroic Materials: New Concepts for Cooling†

Sebastian Fähler;Ulrich K. Rößler;Oliver Kastner;Jürgen Eckert

402
Citations
High cyclic stability of the elastocaloric effect in sputtered TiNiCu shape memory films

C. Bechtold;C. Chluba;R. Lima de Miranda;E. Quandt

345
Citations
Giant magnetoelectric coefficients in (Fe90Co10)78Si12B10-AlN thin film composites

Henry Greve;Eric Woltermann;Hans-Joachim Quenzer;Bernhard Wagner

334
Citations
Exchange biasing of magnetoelectric composites

Enno Lage;Christine Kirchhof;Viktor Hrkac;Lorenz Kienle

326
Citations
Evolution of temperature profiles in TiNi films for elastocaloric cooling

H. Ossmer;F. Lambrecht;M. Gültig;C. Chluba

277
Citations
A Love-wave biosensor using nucleic acids as ligands

Marc D. Schlensog;Thomas M.A. Gronewold;Michael Tewes;Michael Famulok;Michael Famulok

237
Citations
Thin film shape memory microvalves with adjustable operation temperature

M Kohl;D Dittmann;E Quandt;B Winzek

232
Citations
MEMS magnetic field sensor based on magnetoelectric composites

Stephan Marauska;Robert Jahns;Henry Greve;Eckhard Quandt

201
Citations
Sputter deposition of TiNi, TiNiPd and TiPd films displaying the two-way shape-memory effect

E Quandt;C Halene;H Holleck;K Feit

189
Citations
Phase engineering and supercompatibility of shape memory alloys

Hanlin Gu;Lars Bumke;Christoph Chluba;Eckhard Quandt

185
Citations
Sensitivity enhancement of magnetoelectric sensors through frequency-conversion

Robert Jahns;Henry Greve;Eric Woltermann;Eckhard Quandt

178
Citations
Preparation and applications of magnetostrictive thin films

E. Quandt;B. Gerlach;K. Seemann

174
Citations
Monitoring complex formation in the blood-coagulation cascade using aptamer-coated SAW sensors

T.M.A. Gronewold;S. Glass;E. Quandt;M. Famulok

160
Citations
Recent developments in shape memory thin film technology

Bernhard Winzek;Sam Schmitz;Holger Rumpf;Tobias Sterzl

158
Citations
First observation of light-induced spin change in vacuum deposited thin films of iron spin crossover complexes

Holger Naggert;Alexander Bannwarth;Steffen Chemnitz;Thomas von Hofe

151
Citations
Wide Band Low Noise Love Wave Magnetic Field Sensor System.

Anne Kittmann;Phillip Durdaut;Sebastian Zabel;Jens Reermann

131
Citations
Piezoelectric properties of 0.5(Ba0.7Ca0.3TiO3) – 0.5[Ba(Zr0.2Ti0.8)O3] ferroelectric lead-free laser deposited thin films

A. Piorra;A. Petraru;H. Kohlstedt;M. Wuttig

126
Citations
Shape memory microvalves based on thin films or rolled sheets

Manfred Kohl;D Dittmann;Eckhard Quandt;Bernhard Winzek

125
Citations
Highly sensitive wafer-level packaged MEMS magnetic field sensor based on magnetoelectric composites

S. Marauska;R. Jahns;C. Kirchhof;M. Claus

115
Citations