2026 Jonathan D. Poplawsky: 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	54	8807	8507	2156	2000	265	13206

Overview

Jonathan D. Poplawsky is affiliated with Oak Ridge National Laboratory in the United States. Their research primarily spans the fields of engineering and materials science, with a focus on various subfields including mechanical engineering, materials chemistry, biomedical engineering, aerospace engineering, and mechanics of materials.

The scholar's work frequently appears in several publication venues. Notable among these are:

SSRN Electronic Journal
Acta Materialia
Microscopy and Microanalysis
Nature Communications
Journal of Alloys and Compounds

Jonathan D. Poplawsky's research topics encompass:

Advanced Materials Characterization Techniques
High Entropy Alloys Studies
High-Temperature Coating Behaviors
High Temperature Alloys and Creep
Additive Manufacturing Materials and Processes
Microstructure and Mechanical Properties of Steels
Aluminum Alloy Microstructure Properties

Some of the recent papers that involve this scientist include:

Gradient cell-structured high-entropy alloy with exceptional strength and ductility, 2021, Science
Strong yet ductile nanolamellar high-entropy alloys by additive manufacturing, 2022, Nature
Bifunctional nanoprecipitates strengthen and ductilize a medium-entropy alloy, 2021, Nature
Lattice-Distortion-Enhanced Yield Strength in a Refractory High-Entropy Alloy, 2020, Advanced Materials
High-throughput design of high-performance lightweight high-entropy alloys, 2021, Nature Communications

They have collaborated frequently with several co-authors, including:

Amit Shyam
Alex Plotkowski
Lawrence F. Allard
Sumit Bahl
Qingqiang Ren

Best Publications

Gradient-cell–structured high-entropy alloy with exceptional strength and ductility

Qingsong Pan;Liangxue Zhang;Liangxue Zhang;Rui Feng;Qiuhong Lu

699
Citations
Approaches for high internal quantum efficiency green InGaN light-emitting diodes with large overlap quantum wells

Hongping Zhao;Guangyu Liu;Jing Zhang;Jonathan D Poplawsky

645
Citations
Lattice distortion in a strong and ductile refractory high-entropy alloy

Chanho Lee;Gian Song;Michael C. Gao;Rui Feng

571
Citations
The effect of interstitial carbon on the mechanical properties and dislocation substructure evolution in Fe40.4Ni11.3Mn34.8Al7.5Cr6 high entropy alloys

Zhangwei Wang;Ian Baker;Zhonghou Cai;Si Chen

532
Citations
Secondary phases in AlxCoCrFeNi high-entropy alloys: An in-situ TEM heating study and thermodynamic appraisal

J. C. Rao;J. C. Rao;H. Y. Diao;V. Ocelík;D. Vainchtein

398
Citations
Grain-Boundary-Enhanced Carrier Collection in CdTe Solar Cells

Chen Li;Yelong Wu;Jonathan Poplawsky;Timothy J. Pennycook

326
Citations
Perovskite Solar Cells with Near 100% Internal Quantum Efficiency Based on Large Single Crystalline Grains and Vertical Bulk Heterojunctions

Bin Yang;Ondrej Dyck;Jonathan Poplawsky;Jong Keum

297
Citations
The effect of carbon on the microstructures, mechanical properties, and deformation mechanisms of thermo-mechanically treated Fe40.4Ni11.3Mn34.8Al7.5Cr6 high entropy alloys

Zhangwei Wang;Ian Baker;Wei Guo;Jonathan D. Poplawsky

297
Citations
Bifunctional nanoprecipitates strengthen and ductilize a medium-entropy alloy.

Ying Yang;Tianyi Chen;Tianyi Chen;Lizhen Tan;Jonathan D. Poplawsky

296
Citations
High-throughput design of high-performance lightweight high-entropy alloys.

Rui Feng;Rui Feng;Chuan Zhang;Michael C. Gao;Michael C. Gao;Zongrui Pei;Zongrui Pei

276
Citations
Understanding phase stability of Al-Co-Cr-Fe-Ni high entropy alloys

Chuan Zhang;Fan Zhang;Haoyan Diao;Michael C. Gao

275
Citations
Lattice-Distortion-Enhanced Yield Strength in a Refractory High-Entropy Alloy

Chanho Lee;Chanho Lee;Yi Chou;George Kim;Michael C. Gao

270
Citations
Phase transformations of HfNbTaTiZr high-entropy alloy at intermediate temperatures

S.Y. Chen;Y. Tong;K.-K. Tseng;J.-W. Yeh

237
Citations
Correction: Corrigendum: Structural and compositional dependence of the CdTe x Se 1−x alloy layer photoactivity in CdTe-based solar cells

Jonathan D. Poplawsky;Wei Guo;Naba Paudel;Amy Ng

236
Citations
Superior High-Temperature Strength in a Supersaturated Refractory High-Entropy Alloy.

Rui Feng;Rui Feng;Bojun Feng;Michael C. Gao;Chuan Zhang

233
Citations
Strength can be controlled by edge dislocations in refractory high-entropy alloys

Chanho Lee;Chanho Lee;Francesco Maresca;Rui Feng;Rui Feng;Yi Chou

214
Citations
Phase stability and transformation in a light-weight high-entropy alloy

Rui Feng;Michael C. Gao;Chuan Zhang;Wei Guo

207
Citations
Structural and compositional dependence of the CdTexSe1-x alloy layer photoactivity in CdTe-based solar cells.

Jonathan D. Poplawsky;Wei Guo;Naba Paudel;Amy Ng

200
Citations
Growths of staggered InGaN quantum wells light-emitting diodes emitting at 520–525 nm employing graded growth-temperature profile

Hongping Zhao;Guangyu Liu;Xiao-Hang Li;G. S. Huang

197
Citations
Elevated temperature microstructural stability in cast AlCuMnZr alloys through solute segregation

A. Shyam;S. Roy;S. Roy;D. Shin;J.D. Poplawsky

172
Citations