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Hao Lin
PROFESSOR I ACD YR
,
School of Engineering, Mechanical & Aerospace Engineering
Email
hlin
rutgers
edu
h-index
2401
Citations
29
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
2001
2025
Research activity per year
Overview
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Federal Grants
(6)
Research output
(76)
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(6)
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Dive into the research topics where Hao Lin is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
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Keyphrases
Aspect Ratio
15%
Cell Membrane
19%
Collapsing Bubbles
9%
Conductivity Gradient
32%
Conductivity Ratio
14%
Continuous Flow
14%
Continuous-flow Microfluidics
9%
DC Electric Field
15%
Delivery Efficiency
10%
Depth-averaged Equations
9%
DNA Transfection
10%
DNA Vaccine
12%
Electric Field (E-field)
24%
Electrical Conductivity
13%
Electrodeformation
18%
Electrohydrodynamic Instability
9%
Electrokinetic Flow
22%
Electrokinetic Forces
9%
Electrokinetic Instability
22%
Electrokinetics
20%
Electrolyte
15%
Electrophoresis
16%
Electroporation
100%
Electropore
9%
Extracellular Conductivity
11%
Field Strength
9%
Flow Field
11%
Flow Model
9%
Hydrophobic Surface
11%
Impurities
9%
Lipid Membrane
10%
Macroscopic Traffic Model
9%
Mechanical Analysis
9%
Membrane Tension
9%
Microchannel Flow
16%
Microfluidic Channel
10%
Microfluidic Device
9%
Microstructure
10%
Molecular Delivery
31%
Numerical Model
10%
Permeabilization
21%
Poration
9%
Protein Concentration
9%
Protein Trap
9%
Sample Stacking
12%
Stability Criteria
9%
Suction
14%
Transient Solution
9%
Wavefront Expansion
11%
Wetting Transition
13%
Engineering
Aspect Ratio
18%
Cell Suspension
9%
Clinical Application
9%
Conductivity Ratio
17%
Confocal Microscopy
9%
Convective
15%
Direct Current
9%
Drag Force
7%
Electric Field
68%
Electric Field Strength
9%
Electrical Conductivity
14%
Electroosmotic Flow
9%
Electrophoretic Technology
19%
Equilibrium Position
7%
Experimental Observation
14%
Experimental Result
7%
Feedback Control
11%
Field Strength
9%
Flow Model
18%
Flow Stability
9%
Fluorescent Protein
16%
Good Agreement
15%
Hydrophobic
14%
Ion Concentration
8%
Macroscale
9%
Main Flow
9%
Manufacturing Cost
9%
Membrane Tension
9%
Metastable State
9%
Microchannel
46%
Microfabrication Technique
9%
Microfluidic Channel
11%
Microfluidic Device
9%
Micropore
9%
Microscale
17%
Model System
9%
Nernst-Planck Equation
7%
Numerical Model
11%
Numerical Study
7%
Phase Composition
9%
Predictive Control Model
9%
Pulse Length
7%
Receiving Buffer
7%
Smoluchowski Equation
7%
Spheroidal
7%
Strong Electric Field
7%
T Cell
9%
Transients
9%
Transport Mechanism
9%
Two Dimensional
10%
