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Silicon nanopores as bioelectronic devices: A simulation study
Alex Smolyanitsky,
Marco Saraniti
Solid State Electronics Research Center (CSSER)
Nano-Electronics, Arizona Institute of (AINE)
Electrical Engineering
BioMolecular Integrated Circuits, Center for (CBIC)
Computational Nanoscience, Center for (CCN)
Engineering, Ira A. Fulton Schools of (IAFSE)
Electrical, Computer, and Energy Engineering, School of (IAFSE-ECEE)
Research output
:
Contribution to journal
›
Article
›
peer-review
7
Scopus citations
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Mathematics
Nanopore
100%
Silicon
79%
Simulation Study
40%
Conduction
35%
Charge
28%
Brownian Dynamics
22%
Silica
22%
DNA Sequencing
21%
Potassium
21%
Simulation Tool
21%
Electrophoresis
21%
Dynamic Simulation
20%
Electrolyte
19%
Fabrication
19%
Sensing
19%
Numerical Modeling
17%
Adsorption
17%
Curvature
11%
Calculate
10%
Characterization
7%
Model
4%
Engineering & Materials Science
Nanopores
83%
Silicon
44%
Ionic conduction
33%
Surface charge
26%
Electric charge
26%
Charge density
26%
Electrophoresis
24%
Potassium
23%
DNA
19%
Silica
19%
Electrolytes
18%
Adsorption
18%
Numerical models
15%
Fabrication
13%
Computer simulation
10%
Physics & Astronomy
silicon
30%
simulation
21%
sequencing
19%
conduction
18%
electrophoresis
16%
electric charge
15%
potassium
14%
deoxyribonucleic acid
12%
electrolytes
11%
adsorption
10%
silicon dioxide
10%
curvature
10%
solid state
10%
porosity
10%
fabrication
8%
characterization
7%
Chemical Compounds
Simulation
35%
Electric Charge
18%
Surface
18%
DNA Sequencing
17%
Charge Density
13%
Electrophoresis
12%
Dimension
10%
Pore
9%
Adsorption
6%