James Adams

Professor

Associate Professor, IAFSE-SEMTE: CRESMET
Professor, IAFSE-SEMTE: Materials Science and Engineering
Professor, CLAS-NS: Solid State Science, LeRoy Eyring Center for (CSSS)
Professor, Engineering, Ira A. Fulton Schools of (IAFSE)

9029 Citations
52 h-Index

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Chemical Compounds

Atoms

Density functional theory

Metals

Zeolites

Cerium compounds

Molecular dynamics

Vacancies

Adhesion

Aluminum

Electronic structure

Adatoms

Film growth

Biomarkers

Carbon Monoxide

Oxides

Grain boundaries

Oxygen

Oxygen vacancies

Activation energy

Thin films

Mercury

Ions

Tantalum

Kinetics

Adsorption

Decomposition

Copper

Computer simulation

Local density approximation

Hydrogen

Praseodymium

Geometry

Temperature

Defects

Interfacial energy

Discrete Fourier transforms

Liquids

Graphite

Poisons

Nucleation

Helium

Platinum

Cubic boron nitride

Gadolinium

Experiments

Doping (additives)

Adhesives

Transition metals

Substrates

Elastic constants

Engineering & Materials Science

Atoms

Density functional theory

Molecular dynamics

Vacancies

Cerium compounds

Zeolites

Adhesion

Electronic structure

Metals

Adatoms

Film growth

Grain boundaries

Aluminum

Thin films

Adsorption

Kinetics

Cubic boron nitride

Activation energy

Oxygen

Decomposition

Nucleation

Computer simulation

Geometry

Local density approximation

Interfacial energy

Hydrogen

Transition metals

Temperature

Ions

Liquids

Oxides

Tantalum

Copper

Oxygen vacancies

Defects

Experiments

Adhesives

Substrates

Vibrational spectra

Surface properties

Elastic constants

Praseodymium

Enthalpy

Doping (additives)

Platinum

Dimers

Carbides

Molecules

Graphite

Zirconia

Physics & Astronomy

General

embedded atom method

molecular dynamics

density functional theory

metals

simulation

energy

grain boundaries

electronic structure

decomposition

activation energy

adhesives

kinetics

defects

thin films

atomic structure

geometry

interactions

flat surfaces

transition metals

free energy

Chemistry and Materials

zeolites

adhesion

energy of formation

oxygen

aluminum

boron nitrides

adsorption

platinum

amorphous silicon

ceramics

surface energy

copper

gadolinium

tantalum

elastic properties

oxides

liquids

hydrogen

molecules

silicon dioxide

palladium

Physics

adatoms

atoms

enthalpy

temperature

ions

surface diffusion

ion distribution

Mathematical and Computer Sciences

approximation

Engineering

nucleation