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Surface tension propulsion of fungal spores
Xavier Nobliri
, Sylvia Yang
,
Jacques Dumais
Faculty of Engineering and Science
Research output
:
Contribution to journal
›
Article
›
peer-review
72
Scopus citations
Overview
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Keyphrases
Artificial Systems
20%
Auricula
20%
Auricularia Auricula
20%
Basidiomycete Fungi
20%
Coalescence Process
20%
Condensation
20%
Discharge Mechanism
20%
Drop Coalescence
20%
Ejection
100%
Energy Available
20%
Energy Transfer
40%
Explicit Relationship
20%
Force Generation
20%
Fungal Spores
100%
High-speed Video Imaging
20%
Kinetic Energy
40%
Mechanical Analysis
20%
Microcantilever
20%
Propulsion
100%
Shortest Distance
20%
Small Length Scale
20%
Sporobolomyces
20%
Support Structure
20%
Surface Energy
20%
Surface Tension
100%
Total Energy
20%
Water Droplet
20%
Work of Fracture
20%
INIS
animals
6%
coalescence
13%
conversion
6%
distance
6%
droplets
13%
energy
13%
energy transfer
6%
fractures
6%
fungi
6%
kinetic energy
13%
length
6%
mechanics
6%
propulsion
100%
speed
6%
spores
100%
surface energy
6%
surface tension
100%
velocity
20%
water
6%
yeasts
6%
Immunology and Microbiology
Auricularia Auricula-Judae
50%
Basidiomycete
50%
Energy Transfer
50%
Fungal Spore
100%
Jumping
50%
Sporobolomyces
50%
Biochemistry, Genetics and Molecular Biology
Auricularia Auricula-Judae
50%
Basidiomycete
50%
Energy Transfer
50%
Fungus Spore
100%
Jumping
50%
Sporobolomyces
50%
Agricultural and Biological Sciences
Auricula
50%
Auricularia auricula
50%
Fungal Spores
100%
Sporobolomyces
50%
Sterigma
50%