Chemistry
Cannabinoid Receptor Agonist
100%
Synthetic Cannabinoid
83%
Rotational Energy
81%
Vibrational Relaxation
75%
Vibrational Energy
70%
Pyrrolidine
61%
Molecular Dynamics
55%
Lennard-Jones Potential
54%
Structure-Activity Relationship
54%
Potential Energy Surface
53%
Thermal Conductivity
53%
Dopamine
53%
Anisotropy
52%
Ab Initio Calculation
48%
Ground State
44%
Heat
41%
Modification
37%
Density Functional Theory
34%
Pressure
32%
Molecular Orbital
25%
Crystal Orientation
23%
Composite Material
23%
Electronic State
20%
Transition Element
20%
Nonequilibrium
20%
Receptor Binding Affinity
15%
Band Gap
14%
Bioconjugate
14%
Phytocannabinoid
13%
Single Crystalline Solid
13%
Conductivity
12%
Length
11%
Toxic
10%
Cyclic Structure
10%
Gas
9%
Cannabinoid
8%
Application
8%
Kd
8%
Physics & Astronomy
HMX
76%
molecular relaxation
65%
pressure effects
63%
molecular orbitals
55%
baths
50%
molecular dynamics
47%
thermal conductivity
43%
argon
43%
Fourier law
39%
heat flux
37%
temperature gradients
36%
insertion
36%
anisotropy
35%
potential energy
31%
energy
30%
density functional theory
28%
simulation
25%
ground state
24%
Lennard-Jones potential
23%
composite materials
20%
electronics
19%
surface reactions
19%
charge distribution
18%
quotients
18%
sensitivity
16%
charge transfer
16%
boron
16%
decay
15%
transition metals
15%
dissociation
15%
cells
15%
crystal surfaces
15%
trajectories
14%
regression analysis
14%
trends
14%
electronic structure
14%
crystals
13%
orbitals
13%
aluminum
12%
hydroxyl radicals
12%
products
12%
geometry
10%
characterization
10%
intervals
10%
conductivity
9%
single crystals
8%
energy transfer
7%
coefficients
7%
energy dissipation
7%
breakdown
7%
Medicine & Life Sciences
pyrrolidine
87%
Artificial Receptors
87%
Cannabinoid Receptor Agonists
77%
Structure-Activity Relationship
74%
Dopamine
47%
Ligands
39%
Alkylation
29%
Dopamine D3 Receptors
16%
Head
15%
Molecular Models
14%
Nitrogen
11%
3-(2-hydroxy-4-(1,1-dimethylheptyl)phenyl)-4-(3-hydroxypropyl)cyclohexanol
11%
Poisons
10%
Lead
10%
Arrestin
10%
Energy Transfer
9%
Cannabinoid Receptors
8%
Amides
8%
GTP-Binding Proteins
7%
Glutamic Acid
6%
Public Health
5%
Observation
5%