Junjun Jia

准教授(任期付)

  • 326 Citations
  • 12 h-Index
20072019
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Engineering & Materials Science

Thin films
Reactive sputtering
Indium
Sputtering
Oxide films
Crystallization
Zinc oxide
Magnetron sputtering
Thermal conductivity
Doping (additives)
Electric properties
Carrier concentration
Gallium
Photocatalysts
Agglomeration
Scattering
Buffer layers
Substrates
Thermodynamic properties
Structural properties
Temperature
Tin oxides
Annealing
Optical properties
Tuning
Lithium
Fractals
Grain boundaries
High resolution electron microscopy
Flow of gases
Impurities
Electrodes
Conductive films
Metal insulator transition
Film growth
Thin film transistors
Titanium dioxide
Volume fraction
Antimony
Tantalum
Hall mobility
Nanoparticles
Tin
Deposition rates
Colloids
Feedback
Polymer films
Polyimides
Kinetic energy
Polyethylene terephthalates

Physics & Astronomy

General

thin films
oxide films
thermophysical properties
grain boundaries
buffers
impurities
metals
shift
shrinkage
grain size
film thickness
ellipsometry

Chemistry and Materials

zinc oxides
gallium oxides
indium
tin oxides
indium oxides
lithium fluorides
crystallization
oxides
polymers
anatase
polyethylene terephthalate
gases
tantalum
antimony
sapphire
polyimides
tin
rutile

Engineering

sputtering
magnetron sputtering
transistors
ITO (semiconductors)
annealing
electrical resistivity
tuning
scattering
electrical properties
electrodes
conduction bands

Physics

thermal conductivity
nanoparticles
negative ions
temperature
photoelectrons
transmittance
impedance
spatial distribution
electric potential

Chemical Compounds

Thin films
Reactive sputtering
Crystallization
Sputtering
Electric properties
Doping (additives)
Photocatalysts
Structural properties
Magnetron sputtering
Thermodynamic properties
Zinc Oxide
Optical properties
Tuning
Oxide films
Substrates
Indium
Nanoparticles
Tantalum
Annealing
Flow of gases
Tin
Antimony
Electrodes
Thermal conductivity
Conductive films
Scattering
Film growth
Agglomeration
High resolution electron microscopy
Temperature
Buffer layers
Deposition rates
Feedback
Polymers
Grain boundaries
Nitrogen
Kinetic energy
Impurities
Volume fraction
Carrier concentration
Metals
Cathodes
Deposits
Film thickness
Gases
Air
Hall mobility
Crystals
Quartz
Atoms