Material Science
Amorphous Material
28%
Anode
77%
Building Material
20%
Carbide
38%
Carbon Dioxide
34%
Catalyst Activity
18%
Catalyst Support
22%
Cathode
22%
Cesium
16%
Chemical Vapor Deposition
18%
Chromium
16%
Corrosion
17%
Corrosion Resistance
18%
Crystalline Material
12%
Cyclic Voltammetry
25%
Density
54%
Electrical Conductivity
9%
Electrocatalysts
90%
Electrochemical Reaction
10%
Electrode Kinetics
11%
Electrodeposition
28%
Film
14%
Halide
18%
Hydrogen Evolution
20%
Indium
21%
Ionic Conductivity
18%
Iridium
35%
Lubrication
28%
Nanoparticle
11%
Niobium
48%
Nitrogen Adsorption
12%
Oxidation Reaction
11%
Oxide Compound
73%
Oxygen Evolution
71%
Platinum
42%
Polymer Electrolyte
57%
Powder
39%
Proton Conductor
24%
Proton-Exchange Membrane Fuel Cells
21%
Ruthenium
14%
Silicon Carbide
10%
Stainless Steel
89%
Surface Property
12%
Surface Topography
18%
Tantalum
100%
Tin
30%
Tungsten
24%
Water Splitting
9%
Water Vapor
14%
X-Ray Diffraction
34%
Engineering
Adsorption
10%
Ambient Pressure
9%
Anodization
9%
Antimony-Doped Tin Oxide
9%
Aquivion
15%
Cell Performance
9%
Chemical Vapor Deposition
18%
Coated Steel
9%
Conductivity Measurement
18%
Corrosion Behavior
9%
Corrosion Resistance
18%
Department of Energy
9%
Diaphragm
12%
Electrocatalyst
93%
Electrolyser
96%
Electrolyte for Fuel Cells
9%
Electrolyzer
49%
Electroreduction
9%
Elevated Temperature
43%
Enzymatic Activity
9%
Fuel Cell
31%
Hydrogen Evolution Reaction
11%
Intermediate Temperature
37%
Iridium Oxide
25%
Low-Temperature
9%
Lubricant Film
14%
Model System
9%
Narrow Channel
11%
Ohmic Resistance
12%
Oxidative Degradation
9%
Oxygen Electrode
12%
Oxygen Evolution Reaction
39%
Perfluorosulfonic Acid
9%
Polymer Electrolyte Membrane
65%
Pressure Range
9%
Process Condition
9%
Proton Conductivity
28%
Proton Exchange Membrane
31%
Proton-Exchange Membrane Fuel Cells
23%
Reduction Process
9%
Size-Exclusion Chromatography
9%
Stainless Steel
63%
Support Material
30%
Target Value
9%
Temperature Fuel Cell
18%
Temperature Range
27%
Term Stability
9%
Vapor Deposition
18%
Water Electrolysis
51%
Water Splitting
18%
Keyphrases
Alkali Doped
9%
Alkali Fluorides
9%
Alkaline Water Electrolysis
9%
Anion Conducting Membranes
9%
Antimony-doped Tin Oxide
9%
Boundary Lubrication
9%
Carbon Corrosion
9%
Cathode Electrocatalyst
9%
Chemical Nature
9%
Chemical Vapor Deposition
18%
Cold Forging
28%
Composite Electrolyte
9%
CsH2PO4
10%
Current Density
15%
Electrocatalyst
9%
Electrocatalyst Support
11%
Electrochemical Phosphating
9%
Electrodeposition
9%
Electrolysis
21%
Electrolytic Cell
9%
Elevated Temperature
9%
EP Additive
9%
Halide Melt
18%
High Temperature PEM
9%
High Temperature Polymer Electrolyte Membrane
9%
Indium Doped
9%
Intrinsic Proton Conductivity
9%
Iridium Oxide
14%
IrO2
9%
Iron(III) Chloride
9%
Kinetic Study
9%
Lubricant
26%
Narrow Channel
11%
Non-platinum
9%
Oxofluorides
9%
Oxygen Electrode
9%
PEM Electrolyzer
9%
PFSA Membrane
9%
Phase Transition
9%
Phosphate
18%
Phosphate Solution
9%
Polybenzimidazole Membrane
9%
Polymer Electrolyte Membrane Water Electrolysis
28%
Refractory Ceramics
9%
Sodium Carbonate
9%
Stainless Steel
18%
Tantalum
28%
Tantalum Carbide
18%
Tin Pyrophosphate
9%
Zero-gap
9%
