2026 Paul E. Sheehan: 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	40	12768	12351	2928	2724	92	18683

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Materials Science

12768

12351

2928

2724

18683

Overview

Paul E. Sheehan is affiliated with the Defense Advanced Research Projects Agency in the United States. Their research activities span a range of interdisciplinary fields, with a focus on applying computational methods to biological systems.

Their main fields of study include Biochemistry, Genetics and Molecular Biology, where they have contributed two publications, as well as Decision Sciences with one publication. Within these broader areas, their work further explores subfields such as Biophysics, Information Systems and Management, and Molecular Biology.

The key research topics addressed by Paul E. Sheehan are:

Cell Image Analysis Techniques
Scientific Computing and Data Management
Genetics, Bioinformatics, and Biomedical Research

Paul E. Sheehan has contributed to academic literature with papers published in reputable venues. Among these is the paper titled A controlled trial for reproducibility, published in 2020 in the journal Nature.

Frequent co-authors collaborating with Paul E. Sheehan include:

Marc P. Raphael
Gary J. Vora

Among the publication venues, Nature stands out with Paul E. Sheehan having at least one publication there.

Best Publications

Nanobeam mechanics: Elasticity, strength, and toughness of nanorods and nanotubes

Eric W. Wong;Paul E. Sheehan;Charles M. Lieber

6706
Citations
Reduced graphene oxide molecular sensors.

Jeremy T. Robinson;F. Keith Perkins;Eric S. Snow;Zhongqing Wei

2051
Citations
Properties of Fluorinated Graphene Films

Jeremy T. Robinson;James S. Burgess;Chad E. Junkermeier;Stefan C. Badescu

1336
Citations
A biosensor based on magnetoresistance technology.

David R. Baselt;Gil U. Lee;Mohan Natesan;Steven W. Metzger

1112
Citations
Nanoscale Tunable Reduction of Graphene Oxide for Graphene Electronics

Zhongqing Wei;Debin Wang;Suenne Kim;Soo Young Kim;Soo Young Kim

863
Citations
Detection Limits for Nanoscale Biosensors

Paul E. Sheehan;Lloyd J. Whitman

765
Citations
The BARC biosensor applied to the detection of biological warfare agents.

R. L. Edelstein;C. R. Tamanaha;P. E. Sheehan;M. M. Miller

661
Citations
Wafer-scale reduced graphene oxide films for nanomechanical devices.

Jeremy T. Robinson;Maxim Zalalutdinov;Jeffrey W. Baldwin;Eric S. Snow

528
Citations
Design and Performance of GMR Sensors for the Detection of Magnetic Microbeads in Biosensors

J.C. Rife;M.M. Miller;P.E. Sheehan;C.R. Tamanaha

507
Citations
A DNA array sensor utilizing magnetic microbeads and magnetoelectronic detection

M.M. Miller;P.E. Sheehan;R.L. Edelstein;C.R. Tamanaha

336
Citations
Nanotribology and Nanofabrication of MoO3 Structures by Atomic Force Microscopy

Paul E. Sheehan;Charles M. Lieber

325
Citations
Graphene synthesis

Unknown

297
Citations
Thiol Diffusion and the Role of Humidity in "Dip Pen Nanolithography"

P. E. Sheehan;L. J. Whitman

238
Citations
Estimated effects of temperature on secondary organic aerosol concentrations.

Paul E. Sheehan;Frank M. Bowman

215
Citations
Nanoscale deposition of solid inks via thermal dip pen nanolithography

P. E. Sheehan;L. J. Whitman;William Paul King;Brent A. Nelson

211
Citations
Real-time DNA detection using reduced graphene oxide field effect transistors.

Rory Stine;Jeremy T. Robinson;Paul E. Sheehan;Cy R. Tamanaha

181
Citations
Fluorination of graphene enhances friction due to increased corrugation.

Qunyang Li;Xin-Z. Liu;Sang-Pil Kim;Vivek B. Shenoy

181
Citations
High-quality uniform dry transfer of graphene to polymers.

Evgeniya H. Lock;Mira Baraket;Matthew Laskoski;Shawn P. Mulvaney

177
Citations
The assembly of single-layer graphene oxide and graphene using molecular templates.

Zhongqing Wei;Daniel E. Barlow;Paul E. Sheehan

172
Citations
Chemical gradients on graphene to drive droplet motion.

Sandra C. Hernández;Charlee J. C. Bennett;Chad E. Junkermeier;Stanislav D. Tsoi

166
Citations
Direct deposition of continuous metal nanostructures by thermal dip-pen nanolithography

B. A. Nelson;W. P. King;A. R. Laracuente;P. E. Sheehan

159
Citations
Conductance anisotropy in epitaxial graphene sheets generated by substrate interactions.

Michael K. Yakes;Daniel Gunlycke;Joseph L. Tedesco;Paul M. Campbell

148
Citations