Skip to main navigation
Skip to search
Skip to main content
TU Delft Research Portal Home
Help & FAQ
Link opens in a new tab
Search content at TU Delft Research Portal
Home
Research units
Researchers
Research output
Datasets
Projects
Equipment
Press/Media
Prizes
Activities
Metrics of Green Chemistry and Sustainability: Past, Present, and Future
Roger A. Sheldon
*
*
Corresponding author for this work
BT/Biocatalysis
Research output
:
Contribution to journal
›
Review article
›
peer-review
1116
Link opens in a new tab
Citations (Scopus)
5422
Downloads (Pure)
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Metrics of Green Chemistry and Sustainability: Past, Present, and Future'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Earth and Planetary Sciences
Sustainability
100%
Environmental Impact Assessment
100%
Product
75%
Economy
50%
Biomass
50%
Waste
50%
Efficiency
50%
Economic Viability
25%
Starting
25%
Mesh
25%
Industry
25%
Life Cycle Assessment
25%
Circular Economy
25%
Utilization
25%
Sum
25%
Resources
25%
Fossil
25%
Need
25%
Waste Minimisation
25%
Environmental Impact
25%
Chemistry
Green Chemistry
100%
Procedure
100%
Chemical Reaction Product
75%
Waste Material
75%
Biomass
50%
Environmental Impact
25%
Circular Economy
25%
Industry
25%
Mass Intensity
25%
Atom
25%
Application
25%
Chemical Reaction
25%
INIS
chemistry
100%
metrics
100%
sustainability
100%
economy
30%
wastes
30%
efficiency
20%
biomass
20%
design
10%
production
10%
fossils
10%
conversion
10%
applications
10%
economics
10%
minimization
10%
environmental impacts
10%
atoms
10%
life cycle assessment
10%
resources
10%
viability
10%
industry
10%
pharmaceuticals
10%
Engineering
Metrics
100%
Sustainable Development
100%
Product
30%
Biomass
20%
Efficiency
20%
Measures
20%
Gas Fuel Manufacture
20%
Renewables
20%
Mols
20%
Application
10%
Production
10%
Reaction Mass
10%
Environmental Impact
10%
Economics
10%
Starting Material
10%
Mesh
10%
Life Cycle Assessment
10%
Development
10%
Fine Chemical
10%
Design
10%
Minimization
10%
Material Science
Materials
100%
Feedstock
100%
Keyphrases
Reaction Mass Efficiency
33%
Basic Chemicals
33%