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Centimeter-Scale Curing Depths in Laser-Assisted 3D Printing of Photopolymers Enabled by Er
3+
Upconversion and Green Light-Absorbing Photosensitizer
Adilet Zhakeyev
, Jose Marques-Hueso
Institute of Sensors, Signals & Systems
School of Engineering & Physical Sciences
Research output
:
Contribution to journal
›
Article
›
peer-review
8
Citations (Scopus)
41
Downloads (Pure)
Overview
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Dive into the research topics of 'Centimeter-Scale Curing Depths in Laser-Assisted 3D Printing of Photopolymers Enabled by Er
3+
Upconversion and Green Light-Absorbing Photosensitizer'. Together they form a unique fingerprint.
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INIS
depth
100%
lasers
100%
curing
100%
3d printing
100%
cross-linking
60%
phosphors
40%
resins
40%
penetration depth
40%
nonlinear problems
20%
cost
20%
emission
20%
volume
20%
width
20%
doped materials
20%
aspect ratio
20%
lanthanides
20%
Engineering
Centimeter
100%
3D Printing
100%
Photopolymer
100%
Penetration Depth
50%
Aspect Ratio
25%
Laser Patterning
25%
Multiphoton Lithography
25%
Doped Phosphor
25%
Focal Point
25%
Material Science
Three Dimensional Printing
100%
Photosensitizer
100%
Lanthanide Series
33%
Chemical Engineering
Photopolymer
100%
Rare Earth Element
25%