INIS
chlorides
100%
density functional method
100%
cyanogen
100%
nanotubes
100%
doped materials
100%
boron nitrides
100%
interactions
50%
adsorption
33%
gases
25%
levels
16%
energy
16%
molecules
16%
pollutants
8%
carbon
8%
geometry
8%
atoms
8%
detection
8%
energy gap
8%
wave functions
8%
aluminum
8%
charges
8%
Chemistry
Chloride
100%
Boron Nitride Nanotube
100%
Density Functional Theory Study
100%
Analytical Method
33%
Intermolecular Force
33%
Gas
33%
Nanotube
33%
Non-Covalent Interactions
22%
Adsorption Energy
22%
Concentration
22%
Adsorption
22%
DFT-B3LYP Calculation
22%
Molecule
22%
Structure
11%
Physisorption
11%
Wave Function
11%
Aluminum
11%
Density Functional Theory
11%
Atom
11%
Natural Bond Orbital Analysis
11%
Quantum Theory
11%
Band Gap
11%
Bond Order
11%
Carbon
11%
Environmental Pollutant
11%
Procedure
11%
Engineering
Nanotube
100%
Density
100%
Nitride
100%
Adsorption
16%
Target Gas
16%
Adsorption Energy
16%
Covalent
16%
Energy Gap
8%
Pollutant Gas
8%
Function Analysis
8%
Sensing Material
8%
Physisorption
8%
Gas Molecule
8%
Detection
8%
Material Science
Boron Nitride
100%
Density
100%
Nanotube
100%
Adsorption
33%
Gas
25%
Materials
8%
Aluminum
8%
Chemical Engineering
Nanotube
100%
Boron Nitride
100%
Adsorption
33%
Physisorption
8%
Building--Aluminum Application
8%
Carbon
8%
Keyphrases
C-doped
100%
Cyanogen Chloride
100%
Weak Intermolecular Interactions
11%
Wavefunction Analysis
11%
Aluminum Doping
11%