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Droplet microfluidics for bioprocess engineering
K. Totlani
ChemE/Product and Process Engineering
Research output
:
Thesis
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Dissertation (TU Delft)
287
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Dive into the research topics of 'Droplet microfluidics for bioprocess engineering'. Together they form a unique fingerprint.
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Engineering
Bioengineering
50%
Bioprocess Development
100%
Bioprocess Engineering
100%
Bioreactor
50%
Design
50%
Development
50%
Dissolved Oxygen Concentration
50%
Dissolved Oxygen Level
50%
Experiments
50%
Foundations
50%
High Concentration
50%
Initial Stage
50%
Microenvironments
50%
Microfluidic Technology
100%
Microfluidics
100%
Strain
50%
Substrates
50%
Throughput
50%
INIS
bioreactors
16%
biotechnology
16%
communities
16%
concentration
33%
control
16%
cultivation
66%
design
16%
dissolved oxygen
50%
droplets
100%
dynamics
16%
engineering
100%
environment
16%
equipment
16%
foundations
16%
growth
16%
levels
16%
microorganisms
100%
nutrients
50%
plates
33%
productivity
16%
screening
33%
strains
16%
substrates
16%
tools
16%
zones
16%
Earth and Planetary Sciences
Approach
16%
Bioengineering
16%
Community
16%
Condition
83%
Cultivation
66%
Culture
33%
Droplet
100%
Experiment
16%
Experimentation
16%
Foundation
16%
Growth and Development
16%
Micro-Organism
100%
Project
33%
Region
16%
Selection
16%
Shape
16%
Strain
16%
Substrate
16%
Chemical Engineering
Biochemical Reactor
33%
Biotechnology
33%
Dissolved Oxygen
100%
Food Science
Nutrient
100%