Keyphrases
Thermochemical Water Splitting Cycles
100%
Sulfuric Acid Decomposition
82%
Decomposition Reaction
77%
Sulfur-based
75%
Hydrogen Production
69%
Alkylation
67%
Supercritical Fluid
55%
Sulfuric Acid
54%
Thermochemical Cycle
51%
Decomposition Catalyst
49%
Regeneration
47%
High Temperature
46%
Pt-TiO2
44%
Reaction Steps
42%
Catalyst Activity
41%
Isobutane
34%
Zeolite Catalyst
33%
Catalytic Activity
32%
Zeolite
32%
Hydrocarbons
29%
Reactor
29%
Sulfur-iodine
28%
TiO2 Catalyst
27%
Chemical Reaction
27%
Supported Platinum Catalyst
26%
Catalytic Decomposition
25%
Low Temperature
25%
Heterogeneous Catalyst
24%
Metal Oxide
22%
Oxides
21%
Thermal Decomposition
21%
Solid Acid Catalyst
21%
Rutile
20%
Solid Catalyst
20%
Modifying Agent
19%
Impurities
19%
Idaho National Laboratory
19%
Time on Stream
18%
Carbon Dioxide
18%
High Activity
18%
Supercritical Reaction
18%
Fouling
18%
Reaction Mixture
18%
Butene
17%
Continuous Operation
17%
Diffuse Reflectance Infrared Fourier Transform Spectroscopy (DRIFTS)
17%
Ethanol Oxidation
16%
Water-splitting Process
16%
Critical Fluid
16%
Direct Decomposition
16%
Engineering
Thermochemical Water-Splitting Cycle
84%
Thermochemical Cycle
47%
Water Splitting
33%
Producing Hydrogen
30%
Platinum Catalyst
30%
Low-Temperature
28%
Hydrogen Production
24%
Methane
23%
Produce Hydrogen
17%
Activated Carbon
16%
Energy Conversion Efficiency
16%
Porosity
12%
Aromatics
11%
Engineering
11%
Energy Efficiency
11%
Energy Conservation
11%
Common Metal
11%
Nickel(II) Iron(III) Oxide
11%
Continuous Operation
11%
Crystal Structure
11%
Hydrogen Production Process
11%
Lithium Ion Battery
11%
Leaching
9%
Natural Gas
8%
Liquid Phase
8%
Greenhouse Gas
8%
Enzymatic Activity
8%
Membrane Reactor
7%
Aqueous Solution
7%
Product Yield
7%
Metrics
6%
High Surface Area
6%
Actuator
5%
Membranes Separation
5%
Heat Source
5%
Product Life
5%
Separation Factor
5%
Microalgae
5%
Permanent Magnet
5%
Fluid Dynamics
5%
Capital Cost
5%
Dynamic Model
5%
Element Balance
5%
Base Metal
5%
Structural Materials
5%
Alkylation
5%
Monofilament
5%
Limitations
5%
Fischer-Tropsch
5%
Flow Path
5%
