0.25
0.5
0.75
1.25
1.5
1.75
2
Translating the Precision Photochemistry Paradigm into Multi-Colour Multi-Material 3D Printing
Over the last decade our laboratory has employed monochromatic tuneable laser systems to reveal a strong mismatch between the absorptivity of a chromophore and its photochemical reactivity in the vast
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Presentation
The Precision Photochemistry Paradigm00:00
QUT01:13
Taxonomy of Multi-Colour Photochemistry02:04
Synergistic Two-Colour Photoresist04:57
Synergistic Two-Colour Chemistry06:18
Synergistic Photochemistry - Photorheology Studies07:11
Multicolour Laser Stereolithography (MCLSLA)08:29
Orthogonal Photochemistry10:19
Multicolour Laser Stereolithography (MCLSLA)12:21
Multicolour Laser Stereolithography (MCLSLA)14:10
Multicolour Laser Stereolithography (MCLSLA)14:36
Multicolour Laser Stereolithography (MCLSLA)15:48
A Quote from 181817:02
Precision Photochemistry19:29
2017 – Beyond the Absorption Maximum21:29
2024 – Beyond the Absorption Maximum25:09
[2+2] Cycloadditions26:10
Wavelength-dependent Deprotection27:18
Wavelength Dependent Photoacids/Bases28:18
Photochemical Ring Contraction29:57
Precision Photochemistry30:47
Precision Photochemistry – The Never Ending Tail32:12
Precision Photochemistry – The Red-Edge Effect37:43
Wavelength-Dependent Excited-State Lifetimes38:49
Synthetic Shortening of Excited-State Lifetime39:53
The Consequences of the Mismatch42:59