2026 Charles R. Martin: 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	123	436	418	158	145	381	60091

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Materials Science

123

436

418

158

145

381

60091

Overview

Charles R. Martin is affiliated with the University of Florida in the United States. Their research spans multiple fields, with a primary focus on engineering and medicine. Within these domains, the scientist has contributed extensively to subfields such as biomedical engineering, electrical and electronic engineering, surgery, electrochemistry, and oncology.

The core topics addressed in their work include nanopore and nanochannel transport studies, fuel cells and related materials, membrane-based ion separation techniques, electrochemical analysis and applications, pancreatic and hepatic oncology research, pancreatitis pathology and treatment, and actinomycetales infections and treatment.

Charles R. Martin's frequent publication venues reflect a diversity of scientific forums, including:

ECS Meeting Abstracts
Gastroenterology
Nanomaterials
ACS Nano
ChemNanoMat

This scientist has collaborated often with several researchers, notably:

Stevie N Bush
Thomas T. Volta
Motasem Alkhayyat
Mohannad Abou Saleh
C. Roberto Simons-Linares

Among the recent papers authored or co-authored by Charles R. Martin are:

Chemical Sensing and Chemoresponsive Pumping with Conical-Pore Polymeric Membranes (2020), published in Nanomaterials
The Ionic Composition and Chemistry of Nanopore-Confined Solutions (2022), published in ACS Nano
Resistive-pulse Sensing of DNA with a Polymeric Nanopore Sensor and Characterization of DNA Translocation (2021), published in ChemNanoMat
Biological nanopores elucidate the differences between isomers of mercaptobenzoic-capped gold clusters (2020), published in Physical Chemistry Chemical Physics
Imaging Cycle-Induced Damage of MnO₂ Microparticles (2020), published in Journal of The Electrochemical Society

The research efforts led by Charles R. Martin involve extensive study in nanopore technologies and electrochemical systems, contributing to understanding chemical sensing, DNA translocation, nanopore chemistry, and damage mechanisms in materials. Their work incorporates both experimental and application-driven approaches to biomedical engineering and electrochemical analysis.

Best Publications

Nanomaterials: a membrane-based synthetic approach.

Charles R. Martin

5505
Citations
Carbon nanotubule membranes for electrochemical energy storage and production

Guangli Che;Brinda B. Lakshmi;Ellen R. Fisher;Charles R. Martin

2516
Citations
Membrane-Based Synthesis of Nanomaterials

Charles R. Martin

2199
Citations
A general template-based method for the preparation of nanomaterials

John C. Hulteen;Charles R. Martin

1589
Citations
Template Synthesis of Electronically Conductive Polymer Nanostructures

Charles R. Martin

1278
Citations
Sol−Gel Template Synthesis of Semiconductor Oxide Micro- and Nanostructures

Brinda B. Lakshmi;Charles J. Patrissi;Charles R. Martin

1055
Citations
Chemical Vapor Deposition Based Synthesis of Carbon Nanotubes and Nanofibers Using a Template Method

G. Che;B. B. Lakshmi;C. R. Martin;E. R. Fisher

1049
Citations
FABRICATION AND EVALUATION OF NANOELECTRODE ENSEMBLES

Vinod P. Menon;Charles R. Martin

1046
Citations
The emerging field of nanotube biotechnology

Charles R. Martin;Punit Kohli

1036
Citations
Sol−Gel Template Synthesis of Semiconductor Nanostructures

Brinda B. Lakshmi;Peter K. Dorhout;Charles R. Martin

988
Citations
Temperature Dependence of the Electrode Kinetics of Oxygen Reduction at the Platinum/Nafion® Interface—A Microelectrode Investigation

Arvind Parthasarathy;Supramaniam Srinivasan;A. John Appleby;Charles R. Martin

909
Citations
Metal Nanotubule Membranes with Electrochemically Switchable Ion-Transport Selectivity

Matsuhiko Nishizawa;Vinod P. Menon;Charles R. Martin

887
Citations
Antibody-based bio-nanotube membranes for enantiomeric drug separations.

Sang Bok Lee;David T. Mitchell;Lacramioara Trofin;Tarja K. Nevanen

822
Citations
Template Synthesized Nanoscopic Gold Particles: Optical Spectra and the Effects of Particle Size and Shape

Colby A. Foss;Gabor L. Hornyak;Jon A. Stockert;Charles R. Martin

807
Citations
Nanotubule-Based Molecular-Filtration Membranes

Kshama B. Jirage;John C. Hulteen;Charles R. Martin

754
Citations
Smart nanotubes for bioseparations and biocatalysis.

David T Mitchell;Sang Bok Lee;Lăcrămioara Trofin;Naichao Li

748
Citations
Resistive-Pulse Sensing-From Microbes to Molecules.

Hagan Bayley;Charles R. Martin

653
Citations
Protein Biosensors Based on Biofunctionalized Conical Gold Nanotubes

Zuzanna Siwy;Lacramioara Trofin;Punit Kohli;Lane A Baker

609
Citations
Template synthesis of organic microtubules

Charles R. Martin;Leon S. Van Dyke;Zhihua Cai;Wenbin Liang

608
Citations
Conical-nanotube ion-current rectifiers: the role of surface charge.

Zuzanna Siwy;Elizabeth Heins;C Chad Harrell;Punit Kohli

602
Citations
Metal-Nanocluster-Filled Carbon Nanotubes: Catalytic Properties and Possible Applications in Electrochemical Energy Storage and Production

Guangli Che;Brinda B. Lakshmi;Charles R. Martin;Ellen R. Fisher

602
Citations