Strong Coupling Between Plasmons and Molecular Excitons in Metal–Organic Frameworks

This Letter describes strong coupling of densely packed molecular emitters in metal–organic frameworks (MOFs) and plasmonic nanoparticle (NP) lattices. Porphyrin-derived ligands with small transition dipole moments in an ordered MOF film were grown on Ag NP arrays. Angle-resolved optical measurement...

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Published inNano letters Vol. 21; no. 18
Main Authors Sample, Alexander D., Guan, Jun, Hu, Jingtian, Reese, Thaddeus, Cherqui, Charles R., Park, Jeong-Eun, Freire-Fernández, Francisco, Schaller, Richard D., Schatz, George C., Odom, Teri W.
Format Journal Article
LanguageEnglish
Published United States American Chemical Society 07.09.2021
Subjects
conformal coating
energy
INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
lattices
metal–organic framework
metal−organic framework, plasmonic nanoparticle array, conformal coating, surface lattice resonance, ultrafast spectroscopy
plasmonic nanoparticle array
polaritons
quantum mechanics
surface lattice resonance
ultrafast spectroscopy
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Abstract This Letter describes strong coupling of densely packed molecular emitters in metal–organic frameworks (MOFs) and plasmonic nanoparticle (NP) lattices. Porphyrin-derived ligands with small transition dipole moments in an ordered MOF film were grown on Ag NP arrays. Angle-resolved optical measurements of the MOF-NP lattice system showed the formation of a polariton that is lower in energy and does not cross the uncoupled MOF Q1 band. Modeling predicted the upper polariton energy and a calculated Rabi splitting of 110 meV. The coupling strength was systematically controlled by detuning the plasmon energy by changing the refractive index of the solvents infiltrating the MOF pores. Through transient absorption spectroscopy, we found that the lower polariton decays quickly at shorter time scales (<500 ps) and slowly at longer times because of energy transfer from the upper polariton. Furthermore, this hybrid system demonstrates how MOFs can function as an accessible excitonic material for polariton chemistry.
AbstractList This Letter describes strong coupling of densely packed molecular emitters in metal–organic frameworks (MOFs) and plasmonic nanoparticle (NP) lattices. Porphyrin-derived ligands with small transition dipole moments in an ordered MOF film were grown on Ag NP arrays. Angle-resolved optical measurements of the MOF-NP lattice system showed the formation of a polariton that is lower in energy and does not cross the uncoupled MOF Q1 band. Modeling predicted the upper polariton energy and a calculated Rabi splitting of 110 meV. The coupling strength was systematically controlled by detuning the plasmon energy by changing the refractive index of the solvents infiltrating the MOF pores. Through transient absorption spectroscopy, we found that the lower polariton decays quickly at shorter time scales (<500 ps) and slowly at longer times because of energy transfer from the upper polariton. Furthermore, this hybrid system demonstrates how MOFs can function as an accessible excitonic material for polariton chemistry.
Author Freire-Fernández, Francisco
Schaller, Richard D.
Guan, Jun
Sample, Alexander D.
Park, Jeong-Eun
Cherqui, Charles R.
Schatz, George C.
Hu, Jingtian
Reese, Thaddeus
Odom, Teri W.
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Snippet This Letter describes strong coupling of densely packed molecular emitters in metal–organic frameworks (MOFs) and plasmonic nanoparticle (NP) lattices....
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SubjectTerms conformal coating
energy
INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
lattices
metal–organic framework
metal−organic framework, plasmonic nanoparticle array, conformal coating, surface lattice resonance, ultrafast spectroscopy
plasmonic nanoparticle array
polaritons
quantum mechanics
surface lattice resonance
ultrafast spectroscopy
Title Strong Coupling Between Plasmons and Molecular Excitons in Metal–Organic Frameworks
URI https://www.osti.gov/servlets/purl/1865044
Volume 21
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