Skip to main navigation
Skip to search
Skip to main content
New Jersey Research Community Home
Help & FAQ
Home
Profiles
Research units
Core Facilities
Grants/Projects
Research output
Prizes
Search by expertise, name or affiliation
Contact Expert
View Scopus Profile
Hao Lin
PROFESSOR I ACD YR
,
Rutgers, The State University
,
School of Engineering, Mechanical & Aerospace Engineering
Rutgers, The State University
2001
2025
Research activity per year
Overview
Fingerprint
Network
Grants/Projects
(6)
Research output
(75)
Similar Profiles
(6)
Fingerprint
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.
Sort by
Weight
Alphabetically
Keyphrases
Electroporation
100%
Conductivity Gradient
34%
Molecular Delivery
31%
Electric Field (E-field)
25%
Electrokinetic Flow
23%
Electrokinetic Instability
23%
Electrokinetics
21%
Electrodeformation
18%
Cell Membrane
17%
Permeabilization
17%
Microchannel Flow
17%
Electrophoresis
17%
Electrolyte
16%
Aspect Ratio
16%
DC Electric Field
16%
Suction
15%
Conductivity Ratio
14%
Electrical Conductivity
14%
Wetting Transition
13%
Sample Stacking
12%
DNA Vaccine
12%
Hydrophobic Surface
12%
Extracellular Conductivity
12%
Flow Field
12%
Wavefront Expansion
11%
Microstructure
11%
DNA Transfection
11%
Lipid Membrane
11%
Microfluidic Channel
11%
Delivery Efficiency
11%
Numerical Model
11%
Membrane Tension
10%
Electropore
10%
Depth-averaged Equations
10%
Stability Criteria
10%
Macroscopic Traffic Model
10%
Continuous-flow Microfluidics
10%
Protein Trap
10%
Electrokinetic Forces
10%
Protein Concentration
10%
Flow Model
10%
Electrohydrodynamic Instability
10%
Microfluidic Device
10%
Transient Solution
10%
Mechanical Analysis
10%
Continuous Flow
10%
Impurities
10%
Poration
10%
Collapsing Bubbles
10%
Field Strength
10%
Engineering
Electric Field
66%
Microchannel
48%
Electrophoretic Technology
20%
Flow Model
18%
Aspect Ratio
18%
Conductivity Ratio
17%
Good Agreement
16%
Convective
16%
Experimental Observation
15%
Hydrophobic
15%
Electrical Conductivity
15%
Microscale
12%
Numerical Model
12%
Fluorescent Protein
12%
Microfluidic Channel
11%
Confocal Microscopy
10%
Flow Stability
10%
Main Flow
10%
Field Strength
10%
Predictive Control Model
10%
Membrane Tension
10%
Transport Mechanism
10%
Transients
10%
Phase Composition
10%
Direct Current
10%
Metastable State
10%
Flow Distribution
10%
Microfluidic Device
10%
Micropore
10%
Two Dimensional
10%
Model System
9%
Electroosmotic Flow
9%
Clinical Application
9%
Drag Reduction
8%
Submerged Surface
8%
Ion Concentration
8%
Spheroidal
8%
Nernst-Planck Equation
7%
Pulse Length
7%
Similarities
7%
Numerical Study
7%
Strong Electric Field
7%
Channel Depth
7%
Smoluchowski Equation
7%
Drag Force
7%
Experimental Result
7%
Equilibrium Position
7%
Isotachophoresis
7%
Receiving Buffer
7%
Mechanical Property
7%
