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Hydrolytically Stable MOF in 3D-Printed Structures
Oded Halevi
, Joel M.R. Tan
, Pooi See Lee
*
,
Shlomo Magdassi
*
*
Corresponding author for this work
Institute of Chemistry
Research output
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Contribution to journal
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Article
›
peer-review
84
Scopus citations
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Dive into the research topics of 'Hydrolytically Stable MOF in 3D-Printed Structures'. Together they form a unique fingerprint.
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Engineering
Printed Structure
100%
Three Dimensional Printing
100%
Limited Number
50%
Industrial Applications
50%
Adsorption Capacity
50%
Water Purification
50%
Polymeric Structure
50%
Gas Storage
50%
Hydrolytic Stability
50%
Flow Reactor
50%
So Framework
50%
Keyphrases
Metal-organic Frameworks (MOFs)
100%
3D Printed Structure
100%
Hydrolytically Stable
100%
Water Purification
11%
Mechanical Properties
11%
Gas Storage
11%
Hydrolytic Stability
11%
Chemical Stability
11%
Flow Reactor
11%
Functional Devices
11%
Industrial Application
11%
Adsorption Capacity
11%
Column Reactor
11%
3D Printing Technology
11%
Copper benzene-1,3,5-tricarboxylate
11%
Direct 3D Printing
11%
Continuous Discovery
11%
Water Catalysis
11%
Polymeric Structure
11%
Material Science
Three Dimensional Printing
100%
Catalysis
50%
Chemical Engineering
Water Purification
100%