Andrew Capulli

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Wiki entries:

Introduction (Topic 1)

Polymer Science and Biology: Structure and Dynamics at Multiple Scales

Surface Forces (Topic 2)

Probing nanotube-nanopore interactions

Capillarity and Wetting (Topic 3)

The 'Cheerios Effect'

Polymers and Polymer Solutions (Topic 4)

Evidence for an upper limit to mitotic spindle length

Surfactants (Topic 5)

Amphiphilic Crescent-Moon-Shaped Microparticles Formed by Selective Adsorption of Colloids

Phase Diagrams (Topic 6)

The Science of Chocolate: interactive activities on phase transitions, emulsification, and nucleation

Charged Interfaces (Topic 7)

Controlling the Kinetics of 'Contact Electrification' with Patterned Surfaces

Colloidal Stability (Topic 8)

Tracking Cell Lineages of Single Cells


Key Words

Key Words from the above Wiki entries (also included directly in each entry)

Wiki Entry Key Words
Polymer Science and Biology: Structure and Dynamics at Multiple Scales Poroelastic, Cell Adhesion, Filament Bundling, Cell Alignment
Probing nanotube-nanopore interactions Nanotubes, Transmission Electron Microscopy, Ion Blockage, DNA, Disjoining Pressure
The 'Cheerios Effect' Capillarity, Positive Buoyancy, Negative Buoyancy, Meniscus, Contact Angle
Evidence for an upper limit to mitotic spindle length Mitosis, Spindle Fibers, Microtubule, Mechanotransduction, Self Avoidance
Amphiphilic Crescent-Moon-Shaped Microparticles Formed by Selective Adsorption of Colloids Amphiphilic, Hydrophobic, Hydrophilic, Interfacial Tension, HLB Scale
The Science of Chocolate: interactive activities on phase transitions, emulsification, and nucleation Phase Change, Emulsification, Surfactant, Phase Diagram, Metastable, Spinodal
Controlling the Kinetics of 'Contact Electrification' with Patterned Surfaces Tribocharge, Ion-Transfer Mechanism, Discharge Threshold, Dry Contact, Wet Contact, Humidity (contact)
Tracking Cell Lineages of Single Cells Phenotype, Microfluidics, Progeny, Derjaguin Approximation, Disjoining Pressure, Potential (voltage), Charge Density