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Nonlocal mass nanosensors based on vibrating monolayer graphene sheets
T. Murmu
, S. Adhikari
Research output
:
Contribution to journal
›
Article
›
peer-review
67
Citations (Scopus)
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Dive into the research topics of 'Nonlocal mass nanosensors based on vibrating monolayer graphene sheets'. Together they form a unique fingerprint.
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Keyphrases
Mass Nanosensor
100%
Added Mass
100%
Monolayer Graphene Sheet
100%
Frequency Shift
75%
Nonlocal Elasticity
75%
Numerical Results
50%
Nonlocal Parameter
50%
Molecular Mechanics Simulation
50%
Graphene Sheets
50%
Spatial Distribution
25%
Graphene Resonator
25%
Nonlocal Approach
25%
Mass-based
25%
Potential Energy
25%
Mass Effect
25%
Explicit Relationship
25%
Label-free
25%
Adenosine
25%
Graphene Sensors
25%
Nonlocal Equations
25%
Calibration Constant
25%
Gigahertz
25%
Nonlocality
25%
Nonlocal Theory
25%
Kinetic Energy
25%
Equation-based
25%
Small Scale Effect
25%
Mass Sensor
25%
Attached Mass
25%
Local Approach
25%
Single-layer Graphene Sheet
25%
Mathematical Framework
25%
Engineering
Added Mass
100%
Nanosensor
100%
Graphene Sheet
100%
Monolayers
100%
Frequency Shift
75%
Molecular Mechanics
50%
Graphene
50%
Illustrates
25%
Simulation Result
25%
Nanoscale
25%
Closed Form
25%
Scale Effect
25%
Optimal Value
25%
Resonator
25%
Local Approach
25%
Layer Graphene
25%
Calibration Constant
25%
Spatial Distribution
25%
Material Science
Monolayers
100%
Graphene
100%
Elasticity
50%
Resonator
16%