Keyphrases
Electroporation
100%
Molecular Delivery
100%
Electroporation Method
100%
Efficient Delivery
27%
Field Strength
27%
Cell Viability
27%
Microfluidics
27%
Electroporator
27%
Electric Field (E-field)
18%
Electrokinetics
18%
Cell Membrane
18%
Molecular Transport
18%
Living Cells
18%
High-speed Devices
18%
Proposed Work
18%
Experimental Biology
9%
Cell Population
9%
Microdevice
9%
Interdisciplinary Research
9%
Specific Intent
9%
Individual Cells
9%
Signaling Mechanism
9%
Cancer Stem Cells
9%
Macromolecules
9%
Engineering Biology
9%
On-a-chip
9%
High-throughput
9%
Efficiency Improvement
9%
Mechanical Engineering
9%
Underrepresented Students
9%
Engineering Principles
9%
Stem Cell Differentiation
9%
Clinical Application
9%
Parameter Space
9%
Research Application
9%
Negatively Charged
9%
Educational Initiatives
9%
Human Welfare
9%
Biologically Active Substances
9%
Biological Research
9%
Electrokinetic Mechanism
9%
Numerical Simulation
9%
Electrokinetic Transport
9%
Human Health
9%
Ion Transport
9%
High Efficiency
9%
Biotechnology
9%
Bioengineering
9%
Design Protocol
9%
Molecular Cell
9%
FASEB
9%
Permeabilization
9%
Fluid Mechanics
9%
Lack of Understanding
9%
Transport Phase
9%
Amino Acids
9%
Charged Species
9%
Transport Rate
9%
Cancer Therapy
9%
Cell Permeabilization
9%
Applied Electric Field
9%
Effective Transport
9%
Application Delivery
9%
Benchmark Efficiency
9%
Gene Transfection
9%
Modeling Framework
9%
Molecular Species
9%
Long Pulse Duration
9%
Professional Meeting
9%
On chip
9%
Positively Charged
9%
Micropipette
9%
Extracellular Conductivity
9%
Biomedical Engineering
9%
Transport Time
9%
Fast Delivery
9%
Theory-driven
9%
Cell Damage
9%
Prestigious Journals
9%
Scaling Analysis
9%
Low Field
9%
Single Pulse
9%
Pore Formation
9%
Engineering
Field Strength
100%
Mediated Transport
100%
Engineering
66%
Living Cell
66%
Electric Field
66%
Mechanical Engineering
33%
Simulation Result
33%
Improve Efficiency
33%
Extensive Research
33%
Fluid Mechanics
33%
Experimental Result
33%
Parameter Space
33%
Stem Cell Differentiation
33%
Applied Electric Field
33%
Single Pulse
33%
Micropipette
33%
Delivery Protocol
33%
Charged Specie
33%
Shortfall
33%
Bioengineering
33%
Individual Cell
33%
Clinical Application
33%
Human Health
33%
Pulse Duration
33%