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
Amphiphilic and phase-separable ionic liquids for biomass processing
Ashley J. Holding
, Mikko Heikkilä
, Ilkka Kilpeläinen
*
,
Alistair W.T. King
*
Corresponding author for this work
Not published at VTT
University of Helsinki
Research output
:
Contribution to journal
›
Article
›
Scientific
›
peer-review
60
Link opens in a new tab
Citations (Scopus)
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Amphiphilic and phase-separable ionic liquids for biomass processing'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
INIS
processing
100%
biomass
100%
ionic liquids
100%
cellulose
66%
solutions
55%
recovery
33%
electrolytes
33%
aqueous solutions
33%
dmso
33%
solvents
22%
lignin
22%
saturation
22%
cations
22%
purity
22%
wood
11%
acetates
11%
recycling
11%
volume
11%
nmr
11%
hemicellulose
11%
toxicity
11%
dissolution
11%
units
11%
spectroscopy
11%
solvation
11%
anions
11%
hypothesis
11%
Keyphrases
Ionic Liquid
100%
Amphiphilic
100%
Biomass Processing
100%
Aqueous Solution
37%
Microcrystalline Cellulose
37%
Lignin
25%
Molar Ratio
25%
Electrolyte Solution
25%
Bioprocess
12%
Hemicellulose
12%
Techno-economic
12%
Cellulose
12%
Solvation
12%
Acetate
12%
High Purity
12%
High-purity Cellulose
12%
Cellulose II
12%
Electrolyte
12%
Wood Biopolymer
12%
Saturation Point
12%
Potentially Toxic
12%
Solution State
12%
Crystal Polymorphism
12%
Cation-anion Interaction
12%
NaOAc
12%
HSQC NMR Spectroscopy
12%
Hydrophobic Wood
12%
High Efficiency
12%
Liquid-like
12%
New Series
12%
Solvate Ionic Liquid
12%
Dipolar Aprotic Solvents
12%
Regenerative Materials
12%
Engineering
Microcrystalline
100%
Aqueous Solution
100%
Hydrophobic
66%
Molar Ratio
66%
Solution State
33%
Hemicellulose
33%
Limiting Factor
33%
Bioprocessing
33%
Biopolymer
33%
Chemistry
Ionic Liquid
100%
Cellulose
66%
Microcrystallinity
33%
Aqueous Solution
33%
Electrolyte Solution
22%
Hemicellulose
11%
Solvation
11%
Toxic
11%
Heteronuclear Single Quantum Coherence
11%
NMR Spectroscopy
11%
Biopolymer
11%
Material Science
Ionic Liquid
100%
Lignin
22%
Nuclear Magnetic Resonance Spectroscopy
11%
Solvation
11%
Biopolymer
11%