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Fingerprint Dive into the research topics where James Adams is active. These topic labels come from the works of this person. Together they form a unique fingerprint.

Chemical Compounds

Atoms
Density functional theory
Metals
Zeolites
Cerium compounds
Molecular dynamics
Vacancies
Adhesion
Aluminum
Electronic structure
Adatoms
Film growth
Carbon Monoxide
Oxides
Grain boundaries
Oxygen
Biomarkers
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