Engineering & Materials Science
Acoustic impedance
37%
Alloying
11%
Annealing
33%
Boron
57%
Carbon
38%
Cell membranes
22%
Cells
49%
Costs
29%
Derivatives
42%
Doping (additives)
11%
Economics
32%
Electrodes
32%
Electronic properties
39%
Electrons
51%
Energy utilization
18%
Lasers
38%
Lymphocytes
51%
Magnetic fields
44%
Magnetron sputtering
68%
Membranes
14%
Molecular electronics
43%
Molecular orientation
40%
Molecules
49%
Multilayer films
77%
Multilayers
16%
Networks (circuits)
9%
Nyquist diagrams
29%
Optical transitions
35%
Organic field effect transistors
43%
Phonons
80%
Photonics
58%
Physical properties
15%
Plastics
37%
Potable water
64%
Raman spectroscopy
34%
Recovery
34%
Renewable energy resources
20%
Rutherford backscattering spectroscopy
31%
Sanitation
73%
Scanning
19%
Solar energy
46%
Solar system
29%
Spectroscopy
57%
Substrates
42%
Superconducting materials
67%
Superconducting transition temperature
55%
Surface roughness
14%
Temperature
20%
Theranostics
100%
Thick films
31%
Thin films
96%
Tissue
14%
Transconductance
20%
Wastewater treatment
59%
Water
27%
Water treatment
63%
Water treatment plants
75%
Physics & Astronomy
absorbents
31%
alloying
9%
annealing
20%
atomic force microscopy
9%
backscattering
15%
biomarkers
22%
breast
54%
buffers
21%
calcium oxides
14%
calculus
19%
cancer
48%
cells
27%
characterization
56%
charge carriers
22%
chemical reactions
34%
conduction
11%
conduction bands
10%
confidence
16%
cultured cells
20%
curves
9%
diffraction
20%
direct current
39%
electrical properties
18%
electrical resistivity
16%
electrodes
10%
electrons
21%
energy bands
11%
evaporation
58%
glass
7%
Hall effect
46%
holders
18%
impedance
38%
integrity
18%
lasers
22%
lymphocytes
44%
magnetron sputtering
42%
mass ratios
52%
membranes
12%
Nyquist diagram
29%
optical transition
17%
phonons
34%
photonics
35%
photovoltages
60%
physical properties
13%
probes
30%
profiles
9%
proximity
9%
room temperature
28%
roughness
14%
rutile
17%
solar cells
56%
spectroscopy
35%
stimulation
34%
surface defects
27%
synthesis
21%
temperature
18%
thin films
91%
transconductance
18%
transition temperature
40%
transmittance
10%
transport properties
20%
wafers
12%
x rays
17%
Chemical Compounds
Acid
17%
Alloying
10%
Ambient Reaction Temperature
28%
Annealing
26%
Application
16%
Atomic Force Microscopy
8%
Behavior as Electrode
25%
Biological Marker
46%
Conductivity
8%
Current Density
15%
Diffusion
10%
Etching
9%
Hall Effect
18%
Holder
62%
Impedance Spectroscopy
39%
Intramuscular
12%
Ion
5%
Magnetic Coercivity
22%
Magnetism
56%
Magnetization
11%
Magnetron Sputtering
59%
Multilayer
45%
Optical Transition
70%
Oxidation Reaction
5%
Pore
6%
Pore Size
25%
Porosity
29%
Pressure
21%
Probe
31%
Remanence
18%
Resistance
32%
Rutherford Backscattering Spectroscopy
21%
Rutile
16%
Scanning Electron Microscopy
12%
Semiconductor
38%
Sol Gel Process
8%
Spectroscopy
32%
Superconductive Transition Temperature
75%
Superconductor
57%
Surface
6%
Time
31%
Transconductance
78%
Triclinic Space Group
15%
X-Ray Diffraction
5%