Engineering & Materials Science
Cells
64%
Substrates
49%
Thin films
45%
Single crystals
36%
Sensors
35%
Transmission electron microscopy
35%
Actuators
30%
Silicon
29%
Tensile testing
26%
Tissue
26%
Fibroblasts
25%
Elastic moduli
20%
Axons
19%
Hydrogels
19%
Metals
18%
Testing
18%
Scanning electron microscopy
18%
Neurons
17%
Cell adhesion
16%
Characterization (materials science)
15%
Indentation
14%
Muscle
14%
Temperature
14%
Stiffness
13%
Gels
13%
Mechanical properties
13%
Experiments
13%
Stem cells
12%
Endothelial cells
12%
Proteins
12%
Cantilever beams
11%
Mechanics
11%
Cell death
11%
Microstructure
11%
Mechanical testing
10%
Torsional stress
10%
Analytical models
10%
Polydimethylsiloxane
10%
Buckling
9%
Gold
9%
Fracture mechanics
9%
Unloading
9%
Tumors
9%
Physics & Astronomy
microelectromechanical systems
31%
aluminum
17%
cells
17%
cracks
16%
sensors
15%
thin films
14%
walking machines
12%
metal films
12%
transmission electron microscopy
11%
characterization
9%
silicon
9%
single crystals
9%
mechanical properties
9%
grain size
8%
fabrication
7%
scanning electron microscopy
7%
actuators
7%
gels
7%
cantilever beams
6%
Bauschinger effect
6%
stress distribution
6%
axons
6%
self assembly
6%
traction
6%
modulus of elasticity
5%
phenotype
5%
robotics
5%
microbalances
5%
microstructure
5%
filaments
5%
torsion
5%
low Reynolds number
5%
Medicine & Life Sciences
Colonic Neoplasms
16%
Traction
15%
Axons
15%
Drosophila
14%
Hydrogels
13%
Tumor Microenvironment
11%
Neoplasm Metastasis
10%
Actins
10%
Neurons
10%
Cardiac Myocytes
9%
Cancer-Associated Fibroblasts
9%
Muscles
9%
Fibroblasts
8%
In Vitro Techniques
8%
Atomic Force Microscopy
8%
activin A
8%
Gels
7%
Elastic Modulus
7%
Locomotion
7%
Motor Neurons
7%
Transport Vesicles
7%
Myoblasts
6%
Microfluidics
6%
Neuromuscular Junction
6%
Myosin Type II
5%
Cell Culture Techniques
5%
Muscle Cells
5%
Silicon
5%
Three-Dimensional Printing
5%
Cues
5%
Metals
5%
Fluorescence Microscopy
5%
Gold
5%
Microtubules
5%
Neurites
5%