Skip to main navigation
Skip to search
Skip to main content
VTT's Research Information Portal Home
Search content at VTT's Research Information Portal
Home
Profiles
Research output
Projects
Datasets
Research units
Research Infrastructures
Activities
Prizes
Press/Media
Impacts
On-line capillary electrophoresis instrument for industrial processes
Stella Rovio
, Teemu Työppönen
, Pertti Vastamäki
, Heli Siren
, Pekka Savolahti
,
Ari Hokkanen
Research output
:
Contribution to conference
›
Conference Abstract
›
Scientific
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'On-line capillary electrophoresis instrument for industrial processes'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Capillary Electrophoresis
100%
Industrial Processes
100%
Capillary
100%
Electrolyte
50%
Cell Unit
50%
Electrolyte Solution
50%
Pulp
25%
Continuous Flow
25%
Phenylacetic Acid
25%
Online Control
25%
Replenishment
25%
Work-as-done
25%
Flow Condition
25%
Pressure Difference
25%
PDCs
25%
Migration Time
25%
Electrophoretic Separation
25%
High Ionic Strength Solutions
25%
Fluorescence Detection
25%
Electroosmotic Flow
25%
Online Application
25%
UV Detection
25%
UV Detector
25%
Delivery System
25%
Fluorescein
25%
Sulfate Anion
25%
Platinum Electrode
25%
Peak Shape
25%
Electropherogram
25%
Background Electrolyte
25%
Mandelic Acid
25%
Laser-induced
25%
Acetate Ion
25%
Solvent Control
25%
Partial Cell
25%
Flurescence
25%
Oxalate Anion
25%
Feeding Rate
25%
High CE
25%
Solvent Delivery System
25%
INIS
electrophoresis
100%
capillaries
100%
electrolytes
83%
solvents
50%
units
50%
solutions
33%
dynamics
33%
detection
33%
peaks
33%
delivery
33%
feeding
33%
control
16%
applications
16%
pulps
16%
speed
16%
acetates
16%
shape
16%
voltage
16%
migration
16%
sulfates
16%
wavelengths
16%
platinum
16%
lasers
16%
electrodes
16%
fluorescence
16%
anions
16%
acetic acid
16%
on-line control systems
16%
oxalates
16%
fluorescein
16%
mandelic acid
16%
Chemistry
Capillar Electrophoresis
100%
Electrolyte Solution
100%
Sulfate
50%
Electroosmosis
50%
Acetic Acid
50%
Mandelic Acid
50%
Ionic Strength
50%
Fluorescein
50%
Oxalic Acid
50%
electrode
50%
Electrophoresis
50%
Engineering
Capillary Electrophoresis
100%
Flow Condition
50%
Pressure Difference
50%
High Ionic Strength
50%
Control Line
50%
End Capillary
50%
Electroosmotic Flow
50%
Constructed System
50%
Platinum Electrode
50%
Peak Shape
50%
Tunnel
50%
Chemical Engineering
Capillary Electrophoresis
100%
Acetic Acid
50%
Oxalic Acid
50%