Multistage Networks for Glassy Holographic Photopolymers
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| Titel: | Multistage Networks for Glassy Holographic Photopolymers |
|---|---|
| Autoren: | Alexander J. Osterbaan, Andrew N. Sias, Marianela Trujillo-Lemon, Kieran Fung, Jason P. Killgore, Robert R. McLeod, Christopher N. Bowman |
| Publikationsjahr: | 2025 |
| Schlagwörter: | Medicine, Neuroscience, Physiology, Biotechnology, Evolutionary Biology, Ecology, Developmental Biology, Computational Biology, Space Science, Chemical Sciences not elsewhere classified, ultimate thermomechanical properties, typical polyurethane matrix, 101 ° c, final glassy nature, diffraction grating structure, glassy holographic photopolymers, final holographic photopolymer, final holographic material, materials promote thermal, g , holographic photopolymers, diffraction efficiency, >< sub, thermally latent, stage design, stage cure, multistage networks, index contrast, high fidelity, epoxide cure |
| Beschreibung: | In the writing of holographic photopolymers, the addition of a third-stage cure to the typical polyurethane matrix and acrylate writing monomer steps is used here to modify the ultimate thermomechanical properties of the final holographic photopolymer. Inclusion of a thermally latent, low-refractive-index epoxide homopolymerization increases the T g from a value of −22 °C during the writing step to a final T g of 101 °C after the epoxide cure. Critically, the diffraction grating structure is retained with high fidelity, an index contrast of 0.0057, and a diffraction efficiency of 89% achieved in these materials. Ultimately, the 3-stage design and final glassy nature of these materials promote thermal and dimensional stability of the final holographic material. |
| Publikationsart: | article in journal/newspaper |
| Sprache: | unknown |
| Relation: | https://figshare.com/articles/journal_contribution/Multistage_Networks_for_Glassy_Holographic_Photopolymers/28955605 |
| DOI: | 10.1021/acsami.5c04731.s001 |
| Verfügbarkeit: | https://doi.org/10.1021/acsami.5c04731.s001 https://figshare.com/articles/journal_contribution/Multistage_Networks_for_Glassy_Holographic_Photopolymers/28955605 |
| Rights: | CC BY-NC 4.0 |
| Dokumentencode: | edsbas.58B5EFC7 |
| Datenbank: | BASE |
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Inclusion of a thermally latent, low-refractive-index epoxide homopolymerization increases the T g from a value of −22 °C during the writing step to a final T g of 101 °C after the epoxide cure. Critically, the diffraction grating structure is retained with high fidelity, an index contrast of 0.0057, and a diffraction efficiency of 89% achieved in these materials. Ultimately, the 3-stage design and final glassy nature of these materials promote thermal and dimensional stability of the final holographic material. – Name: TypeDocument Label: Document Type Group: TypDoc Data: article in journal/newspaper – Name: Language Label: Language Group: Lang Data: unknown – Name: NoteTitleSource Label: Relation Group: SrcInfo Data: https://figshare.com/articles/journal_contribution/Multistage_Networks_for_Glassy_Holographic_Photopolymers/28955605 – Name: DOI Label: DOI Group: ID Data: 10.1021/acsami.5c04731.s001 – Name: URL Label: Availability Group: URL Data: https://doi.org/10.1021/acsami.5c04731.s001<br />https://figshare.com/articles/journal_contribution/Multistage_Networks_for_Glassy_Holographic_Photopolymers/28955605 – Name: Copyright Label: Rights Group: Cpyrght Data: CC BY-NC 4.0 – Name: AN Label: Accession Number Group: ID Data: edsbas.58B5EFC7 |
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| RecordInfo | BibRecord: BibEntity: Identifiers: – Type: doi Value: 10.1021/acsami.5c04731.s001 Languages: – Text: unknown Subjects: – SubjectFull: Medicine Type: general – SubjectFull: Neuroscience Type: general – SubjectFull: Physiology Type: general – SubjectFull: Biotechnology Type: general – SubjectFull: Evolutionary Biology Type: general – SubjectFull: Ecology Type: general – SubjectFull: Developmental Biology Type: general – SubjectFull: Computational Biology Type: general – SubjectFull: Space Science Type: general – SubjectFull: Chemical Sciences not elsewhere classified Type: general – SubjectFull: ultimate thermomechanical properties Type: general – SubjectFull: typical polyurethane matrix Type: general – SubjectFull: 101 ° c Type: general – SubjectFull: final glassy nature Type: general – SubjectFull: diffraction grating structure Type: general – SubjectFull: glassy holographic photopolymers Type: general – SubjectFull: final holographic photopolymer Type: general – SubjectFull: final holographic material Type: general – SubjectFull: materials promote thermal Type: general – SubjectFull: g </ sub Type: general – SubjectFull: holographic photopolymers Type: general – SubjectFull: diffraction efficiency Type: general – SubjectFull: >< sub Type: general – SubjectFull: thermally latent Type: general – SubjectFull: stage design Type: general – SubjectFull: stage cure Type: general – SubjectFull: multistage networks Type: general – SubjectFull: index contrast Type: general – SubjectFull: high fidelity Type: general – SubjectFull: epoxide cure Type: general Titles: – TitleFull: Multistage Networks for Glassy Holographic Photopolymers Type: main BibRelationships: HasContributorRelationships: – PersonEntity: Name: NameFull: Alexander J. Osterbaan – PersonEntity: Name: NameFull: Andrew N. Sias – PersonEntity: Name: NameFull: Marianela Trujillo-Lemon – PersonEntity: Name: NameFull: Kieran Fung – PersonEntity: Name: NameFull: Jason P. Killgore – PersonEntity: Name: NameFull: Robert R. McLeod – PersonEntity: Name: NameFull: Christopher N. Bowman IsPartOfRelationships: – BibEntity: Dates: – D: 01 M: 01 Type: published Y: 2025 Identifiers: – Type: issn-locals Value: edsbas – Type: issn-locals Value: edsbas.oa |
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