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Ultra-low optical loss in single crystal waveguides of fluorene/fluorenone CdII coordination polymers

Ultra-low optical loss in single crystal waveguides of fluorene/fluorenone CdII coordination polymers
Ultra-low optical loss in single crystal waveguides of fluorene/fluorenone CdII coordination polymers
Optical waveguides are essential components in integrated photonic circuits and communication devices. Despite recent advances in both inorganic and organic materials, the use of Coordination Polymers (CPs) as single-crystal optical waveguides remains in its infancy but shows great potential. This study aims to gain insight into several design factors for the preparation of single crystal CPs to be used as active optical waveguides. These factors include the nature of the ligand-based emission (investigated both experimentally and theoretically), chemical functionalization at the metal center with ancillary building blocks, and molecular arrangements within the crystal lattice. The CPs presented in this study demonstrate exceptional light propagation performances, with optical losses ranking among the lowest ever reported for CPs and single-crystal organic waveguides. The systematic comparison of the performance of the supramolecular assemblies presented here allowed us to draw significant conclusions, providing valuable insights for the future design of single crystal CPs and optimization of their optical waveguiding performance.
TD-DFT, XRD, coordination polymer, optical loss, single crystal waveguide, coordination polymers, single crystal waveguides
2691-3704
727-739
Podda, Enrico
082cd7c4-4c31-47ba-a011-cc4d3126f02b
Arca, Massimiliano
f90b59f6-4dfb-471d-912e-3515e6507165
Pintus, Anna
d2ae260a-d159-48a7-b000-539e8c19c68e
Lippolis, Vito
d9833a14-4aab-4827-a2ba-be818871dcf5
Coles, Simon J.
3116f58b-c30c-48cf-bdd5-397d1c1fecf8
Orton, James B.
4e2a471f-9e11-4cb4-abb6-d0398047939f
Porcu, Stefania
a091234f-95fb-45c1-94a8-0434f532bc2a
Carlo Ricci, Pier
b3fcec3e-4d38-45a2-9711-e8f4e7fcd50e
Aragoni, M. Carla
e2a7410a-65e0-4550-afba-0d3282d34190
Podda, Enrico
082cd7c4-4c31-47ba-a011-cc4d3126f02b
Arca, Massimiliano
f90b59f6-4dfb-471d-912e-3515e6507165
Pintus, Anna
d2ae260a-d159-48a7-b000-539e8c19c68e
Lippolis, Vito
d9833a14-4aab-4827-a2ba-be818871dcf5
Coles, Simon J.
3116f58b-c30c-48cf-bdd5-397d1c1fecf8
Orton, James B.
4e2a471f-9e11-4cb4-abb6-d0398047939f
Porcu, Stefania
a091234f-95fb-45c1-94a8-0434f532bc2a
Carlo Ricci, Pier
b3fcec3e-4d38-45a2-9711-e8f4e7fcd50e
Aragoni, M. Carla
e2a7410a-65e0-4550-afba-0d3282d34190

Podda, Enrico, Arca, Massimiliano, Pintus, Anna, Lippolis, Vito, Coles, Simon J., Orton, James B., Porcu, Stefania, Carlo Ricci, Pier and Aragoni, M. Carla (2025) Ultra-low optical loss in single crystal waveguides of fluorene/fluorenone CdII coordination polymers. JACS AU, 5 (2), 727-739. (doi:10.1021/jacsau.4c00978).

Record type: Article

Abstract

Optical waveguides are essential components in integrated photonic circuits and communication devices. Despite recent advances in both inorganic and organic materials, the use of Coordination Polymers (CPs) as single-crystal optical waveguides remains in its infancy but shows great potential. This study aims to gain insight into several design factors for the preparation of single crystal CPs to be used as active optical waveguides. These factors include the nature of the ligand-based emission (investigated both experimentally and theoretically), chemical functionalization at the metal center with ancillary building blocks, and molecular arrangements within the crystal lattice. The CPs presented in this study demonstrate exceptional light propagation performances, with optical losses ranking among the lowest ever reported for CPs and single-crystal organic waveguides. The systematic comparison of the performance of the supramolecular assemblies presented here allowed us to draw significant conclusions, providing valuable insights for the future design of single crystal CPs and optimization of their optical waveguiding performance.

Text
podda-et-al-2025-ultra-low-optical-loss-in-single-crystal-waveguides-of-fluorene-fluorenone-cdii-coordination-polymers - Version of Record
Available under License Creative Commons Attribution Non-commercial No Derivatives.
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More information

Accepted/In Press date: 27 November 2024
e-pub ahead of print date: 10 January 2025
Published date: 24 February 2025
Keywords: TD-DFT, XRD, coordination polymer, optical loss, single crystal waveguide, coordination polymers, single crystal waveguides

Identifiers

Local EPrints ID: 498147
URI: http://eprints.soton.ac.uk/id/eprint/498147
DOI: doi:10.1021/jacsau.4c00978
ISSN: 2691-3704
PURE UUID: f22d5798-ccfe-44cc-a0b8-469fee6addc4
ORCID for Simon J. Coles: ORCID iD orcid.org/0000-0001-8414-9272

Catalogue record

Date deposited: 11 Feb 2025 17:42
Last modified: 22 Aug 2025 01:44

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Contributors

Author: Enrico Podda
Author: Massimiliano Arca
Author: Anna Pintus
Author: Vito Lippolis
Author: Simon J. Coles ORCID iD
Author: James B. Orton
Author: Stefania Porcu
Author: Pier Carlo Ricci
Author: M. Carla Aragoni

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