Charles W. Miller Source Confirmed

Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.

High Impact

Researcher

University of Arkansas at Fayetteville

faculty

29 h-index 286 pubs 3,373 cited

Research Areas

Metal and Thin Film Mechanics Tribology Nanoparticles: synthesis and applications Organ Transplantation Techniques and Outcomes Health Sciences Research and Education Innovations in Medical Education

Links

ORCID Lab Website

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OverviewAI-generated summary

Charles W. Miller's research investigates the tribological properties of thin film coatings, focusing on how material composition and surface modifications affect friction and wear. His recent publications examine the impact of copper nanoparticles and graphite particles within polydopamine/polytetrafluoroethylene coatings on stainless steel and 60NiTi substrates. Miller also studies the microscale deformation behavior of these coated materials using nanoscratch tests. His work in this area involves laser surface texturing to enhance tribological performance.

Beyond materials science, Miller has contributed to health sciences research, with recent publications addressing organ transplantation outcomes, specifically the association of normothermic machine perfusion with liver transplant waitlist results for patients with lower Model for End-Stage Liver Disease scores. He has also published on integrating radiation science education into US medical school curricula. Miller holds a strong academic record with an h-index of 29 and over 286 total publications. He has received federal funding from the National Science Foundation for mathematical sciences conferences, serving as PI on one award and Co-PI on another.

Metrics

h-index: 29
Publications: 286
Citations: 3,373

Selected Publications

A Versatile Platform for Designing and Fabricating Multi-Material Perfusable 3D Microvasculatures (2025) DOI
Laser surface texturing of both thin polytetrafluoroethylene coatings and stainless steel substrates for improving tribological properties (2022) DOI
Effects of Test Parameters on the Frictional Properties of Al/Diamond-Like Carbon Core-Shell Nanostructure-Textured Surfaces (2022) DOI
Test parameter and material dependence of the frictional properties of core-shell nanostructure textured surfaces (2022) DOI
Microscale friction and deformation behavior of polydopamine/polytetrafluoroethylene-coated 60NiTi from nanoscratch tests (2022) DOI
Effect of Cu nanoparticles on the tribological performance of polydopamine + polytetrafluoroethylene coatings in oil-lubricated condition (2021) DOI
Tribological behavior of the PDA/PTFE + Cu-SiO2 nanoparticle thin coatings (2021) DOI