Ashby Philip John Data-verified

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Ashby Philip John's research focuses on the development and application of advanced materials, particularly in the context of sensor technologies and fundamental material characterization. His work has involved the surface roughness measurement of functionalized CVD graphene and hexagonal boron nitride heterostructures using atomic force microscopy. He also investigates the functionalization of graphene field-effect transistors for sensor applications.

Beyond materials science, John has been involved in federally funded research projects across diverse scientific disciplines. He serves as Co-PI on an NSF grant for the "Dynamic Modeling of River Ecosystem Stability," with a specific track focusing on Alaskan riverine ecosystems and Yup'ik cultural resiliency. He is also a Co-PI on an NSF MRI Track 1 grant for the acquisition of a replacement Multicollector ICP-MS, supporting research in geology, archeology, and paleobiology. John has also served as PI on NSF grants for "Loops in Coastal Channel Networks: a theoretical, experimental, and field-based investigation of their morphodynamic stability," and for conferences and collaborative research related to modular forms, L-functions, and eigenvarieties. He leads a research group and collaborates with researchers at the University of Arkansas at Fayetteville, including Evans Addo-Mensah and Fernando Maia de Oliveira.

Metrics

• h-index: 1
• Publications: 3
• Citations: 1