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A dynamic model of the jump-to phenomenon during AFM analysis
J. Bowen, D. Cheneler
Chemical Engineering
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Article
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peer-review
5
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Engineering & Materials Science
Air
10%
Colloids
27%
Dynamic models
76%
Elastic moduli
31%
Elastohydrodynamic lubrication
25%
Fluids
12%
Interfacial energy
23%
Mechanical properties
12%
Mechanics
16%
Microscopes
91%
NEMS
27%
Physical properties
16%
Resonators
17%
Soft materials
50%
Substrates
26%
Torque
13%
Van der Waals forces
28%
Physics & Astronomy
air
11%
colloids
18%
compressing
19%
dynamic models
100%
elastohydrodynamics
25%
fluids
11%
inertia
18%
interactions
7%
lubrication
20%
mechanical properties
12%
microscopes
72%
modulus of elasticity
30%
physical properties
14%
probes
11%
resonators
14%
simulation
7%
surface energy
18%
surface reactions
19%
torque
17%
Van der Waals forces
22%
Chemistry
Colloid
17%
Force
64%
Inertia
27%
Interfacial Energy
18%
Length
11%
Lubrication
21%
Mechanics
21%
Probe
11%
Simulation
11%
Surface
24%
Torque
23%
Van Der Waals Force
19%
Velocity
15%