2026 Jonah Erlebacher: 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	48	10697	10334	2530	2349	129	16718

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Materials Science

10697

10334

2530

2349

129

16718

Overview

Jonah Erlebacher is affiliated with Johns Hopkins University in the United States. Their research focuses primarily on materials science, with particular attention to materials chemistry, renewable energy, sustainability and the environment, mechanics of materials, ceramics and composites, and spectroscopy.

Their scholarly output includes numerous papers, notably in the fields of nanoporous metals and alloys, electrocatalysts for energy conversion, anodic oxide films and nanostructures, Pickering emulsions and particle stabilization, graphene research and applications, advanced ceramic materials synthesis, and aerogels and thermal insulation.

Nanoporous metals and alloys
Electrocatalysts for Energy Conversion
Anodic Oxide Films and Nanostructures
Pickering emulsions and particle stabilization
Graphene research and applications
Advanced ceramic materials synthesis
Aerogels and thermal insulation

The most frequent publication venues for Jonah Erlebacher include Acta Materialia, Carbon, SSRN Electronic Journal, Nature Communications, and Materials.

Acta Materialia
Carbon
SSRN Electronic Journal
Nature Communications
Materials

Erlebacher collaborates regularly with a number of researchers, with frequent co-authors including Alyssa Chuang, Jodie Baris, Ian McCue, Alain Karma, and Bernard Gaskey.

Alyssa Chuang
Jodie Baris
Ian McCue
Alain Karma
Bernard Gaskey

Some recent papers authored or co-authored by Erlebacher illustrate the breadth of their research activities:

"Vapor phase dealloying kinetics of MnZn alloys," 2021, Acta Materialia
"Topological control of liquid-metal-dealloyed structures," 2022, Nature Communications
"Challenges and Opportunities for Integrating Dealloying Methods into Additive Manufacturing," 2020, Materials
"Porous graphite fabricated by liquid metal dealloying of silicon carbide," 2020, Carbon
"A powder metallurgy approach to liquid metal dealloying with applications in additive manufacturing," 2022, Acta Materialia

Best Publications

Evolution of nanoporosity in dealloying

Jonah Erlebacher;Jonah Erlebacher;Michael J. Aziz;Alain Karma;Nikolay Dimitrov

3129
Citations
Atomic origins of the high catalytic activity of nanoporous gold

Takeshi Fujita;Takeshi Fujita;Pengfei Guan;Keith P McKenna;Keith P McKenna;Xingyou Lang

981
Citations
Nanoporous Gold Leaf: “Ancient Technology”/Advanced Material

Yi Ding;Young-Ju Kim;Jonah Erlebacher

948
Citations
Oxygen reduction in nanoporous metal–ionic liquid composite electrocatalysts

J. Snyder;T. Fujita;M. W. Chen;J. Erlebacher

792
Citations
An Atomistic Description of Dealloying Porosity Evolution, the Critical Potential, and Rate-Limiting Behavior

Jonah Erlebacher

748
Citations
Nanoporous metals with controlled multimodal pore size distribution.

Yi Ding;Jonah Erlebacher

539
Citations
Metallic Mesoporous Nanocomposites for Electrocatalysis

Yi Ding;Mingwei Chen;Jonah Erlebacher

499
Citations
Volume change during the formation of nanoporous gold by dealloying.

S. Parida;D. Kramer;C. A. Volkert;H. Rösner

492
Citations
Dealloying and Dealloyed Materials

Ian McCue;Ellen Benn;Bernard Gaskey;Jonah Erlebacher

490
Citations
Spontaneous Pattern Formation on Ion Bombarded Si(001)

Jonah Erlebacher;Michael J. Aziz;Eric Chason;Michael B. Sinclair

408
Citations
Stabilized Nanoporous Metals by Dealloying Ternary Alloy Precursors

Josh Snyder;Piyapong Asanithi;Alan B. Dalton;Jonah Erlebacher

378
Citations
Balancing activity, stability and conductivity of nanoporous core-shell iridium/iridium oxide oxygen evolution catalysts.

Yong-Tae Kim;Pietro Papa Lopes;Shin-Ae Park;A-Yeong Lee

348
Citations
The Dealloying Critical Potential

Karl Sieradzki;N. Dimitrov;D. Movrin;C. McCall

330
Citations
Structure/Processing/Properties Relationships in Nanoporous Nanoparticles As Applied to Catalysis of the Cathodic Oxygen Reduction Reaction

Joshua Snyder;Ian McCue;Ken Livi;Jonah Erlebacher

324
Citations
Three-dimensional morphology of nanoporous gold

Takeshi Fujita;Li Hua Qian;Koji Inoke;Jonah Erlebacher

293
Citations
Catalytic reduction of oxygen and hydrogen peroxide by nanoporous gold

Roswitha Zeis;Tang Lei;Karl Sieradzki;Joshua Snyder

283
Citations
Pattern formation during dealloying

J. Erlebacher;Karl Sieradzki

275
Citations
Structural aspects of metal ion carboxylate interactions

Christopher J. Carrell;H. L. Carrell;Jonah. Erlebacher;Jenny P. Glusker

263
Citations
Platinum-plated nanoporous gold : An efficient, low Pt loading electrocatalyst for PEM fuel cells

Roswitha Zeis;Anant Mathur;Greg Fritz;Joe Lee

260
Citations
Hard Materials with Tunable Porosity

Jonah Erlebacher;Ram Seshadri

247
Citations