Skip to main navigation
Skip to search
Skip to main content
Experts@Minnesota Home
Search content at Experts@Minnesota
Home
Profiles
Research units
University Assets
Projects and Grants
Research output
Datasets
Press/Media
Activities
Fellowships, Honors, and Prizes
Impacts
Tailoring metal-organic frameworks for CO
2
capture: The amino effect
Jenny G. Vitillo
, Marie Savonnet
, Gabriele Ricchiardi
, Silvia Bordiga
Chemistry (Twin Cities)
Research output
:
Contribution to journal
›
Article
›
peer-review
71
Link opens in a new tab
Scopus citations
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Tailoring metal-organic frameworks for CO
2
capture: The amino effect'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Amino
100%
Metal-organic Frameworks (MOFs)
100%
CO2 Capture
100%
Amines
75%
NH2 Groups
50%
Regeneration
25%
Screening Tool
25%
Quantum Mechanics
25%
High Capacity
25%
High Surface Area
25%
Linker
25%
Binding Site
25%
Functional Groups
25%
Adsorption Energy
25%
Direct Interaction
25%
Focus of Attention
25%
Aromatic Amines
25%
2-amino-1
25%
Quantum Mechanical Methods
25%
Probe Molecule
25%
Carbon Dioxide Capture
25%
Aliphatic Amines
25%
Rational Synthesis
25%
1,4-benzenedicarboxylate
25%
CO2 Affinity
25%
Efficient Adsorption
25%
Scrubber System
25%
Anthropogenic Greenhouse Gas Emissions
25%
Chemical Engineering
Carbon Dioxide
100%
Metal-Organic Frameworks
100%
Carbon Dioxide Capture
100%
Functional Group
25%
Efficient Adsorption
25%
Material Science
Metal-Organic Framework
100%
Carbon Dioxide
100%
CO2 Capture
100%
Gas Emission
20%
Greenhouse Gas
20%
Chemistry
Metal Organic Framework
100%
Carbon Dioxide
100%
Binding Site
16%
Møller-Plesset Perturbation Theory
16%
Adsorption Energy
16%
Aromatic Amine
16%
Greenhouse Gas Emission
16%
Quantum Mechanical Method
16%
Surface Area
16%
Quantum Theory
16%