Keyphrases
Thermal Conductivity
51%
Heating Rate
49%
Heat Capacity
39%
Magneto-ionics
38%
Nanocalorimetry
36%
Room Temperature
30%
Membrane-based
29%
Ultrathin
27%
Nanocalorimeter
26%
Ultrathin Films
23%
Crystalline Si
22%
Silicon Nanowires (SiNWs)
21%
Nanowires
20%
Thermoelectric
20%
Thin-film Calorimetry
19%
Glass Transition
19%
In Situ
19%
Phonons
18%
Highly Sensitive
18%
Single-crystalline
18%
Thermal Transport
18%
Microreactor
18%
Amorphous Crystallization
17%
Glassy Film
16%
Pd2Si
16%
Phase Transition
16%
Fast Heating Rate
15%
Supercooled Liquid
15%
Si-based
15%
Silicide Formation
15%
Calorimeters
14%
Voltage-driven
14%
Deposition Temperature
14%
Ge Nanocrystals
14%
Fictive Temperature
14%
Pore Anisotropy
12%
Porous Si
12%
Ultra-thin Glass
12%
Stable Glass
12%
Collective Model
12%
Specific Heat
12%
Growth Front
12%
Front Velocity
12%
Superlattices
12%
Temperature Range
12%
Ultrafast Heating
11%
Transport Properties
11%
Temperature Interval
11%
Thermoelectric Generator
10%
Compositional Gradient
10%
Material Science
Film
100%
Thin Films
81%
Thermal Conductivity
62%
Surface (Surface Science)
42%
Nanowires
30%
Thermoelectrics
29%
Anisotropy
25%
Ultrathin Film
25%
Magnetism
22%
Glass Transition
17%
Nucleation
17%
Cobalt(II,III) Oxide
16%
Calorimetry
15%
Nitride Compound
14%
Fictive Temperature
13%
Nanocrystalline
13%
Transition Metal
12%
Magnesium Oxide
12%
Buffer Layer
12%
Nanoparticle
12%
Grain Size
12%
Silicon
12%
Percolation
11%
Nanostructure
11%
Superlattice
10%
Ferromagnetism
9%
Silicide
9%
Neuromorphic Computing
9%
Annealing
9%
Dielectric Material
9%
Density
9%
Electrical Resistivity
9%
Glass Transition Temperature
8%
Magnetic Property
8%
Curie Temperature
8%
Hydrodynamics
7%
Germanium
7%
Transmission Electron Microscopy
7%
Film Thickness
6%
Solidification
6%
Activation Energy
6%
Magnetic Memory
6%
Capacitor
6%
Electrochemical Capacitor
6%
Transistor
6%
Comminution
6%
Yttria Stabilized Zirconia
6%
Dehydrogenation
6%
Magnetic Material
6%
Polymer Nanocomposites
6%
Engineering
Thin Films
89%
Thermal Conductivity
49%
Heating Rate
43%
Calorimeter
32%
Heat Capacity
29%
Thermoelectricity
22%
Rate of Heating
19%
Energy Engineering
18%
Microreactor
18%
Temperature Range
15%
Room Temperature
15%
Superlattice
12%
Temperature Interval
12%
Nanoparticles
12%
Melting Point
10%
Si Nanowires
9%
Silicon Dioxide
9%
Nanocrystalline
9%
Liquid Transition
8%
Hydrodynamics
7%
Nanowire
7%
Processing Technique
6%
Radiative Recombination
6%
Crystallite Size
6%
Conductive
6%
Quantum Confinement Effect
6%
Hertz
6%
Early Stage
6%
Measuring Device
6%
Low Thermal Conductivity
6%
Individual Process
6%
Size Effect
6%
Si Nanoparticles
6%
Semiconductor Nanostructures
6%
Porosity
6%
Nanocomposites
6%
Microfabrication
6%
Engineering
6%
Dehydrogenation
6%
Sio2 Layer
6%
Annealing Temperature
6%
Nanomaterial
5%
Temperature Profile
5%
Good Agreement
5%
Deposited Film
5%
Silicon on Insulator
5%
Nitride
5%
Proof-of-Concept
5%
