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1. Extracting Quantitative Dielectric Properties from Pump-Probe Spectroscopy

Author

Ashoka, Arjun, Tamming, Ronnie R., Girija, Aswathy V., Bretscher, Hope, Verma, Sachin Dev, Yang, Shang-Da, Lu, Chih-Hsuan, Hodgkiss, Justin M., Ritchie, David, Chen, Chong, Smith, Charles G., Schnedermann, Christoph, Price, Michael B., Chen, Kai, and Rao, Akshay

Subjects
Physics - Applied Physics, Condensed Matter - Materials Science
Abstract

Optical pump-probe spectroscopy is a powerful tool for the study of non-equilibrium electronic dynamics and finds wide applications across a range of fields, from physics and chemistry to material science and biology. However, a shortcoming of conventional pump-probe spectroscopy is that photoinduced changes in transmission, reflection and scattering can simultaneously contribute to the measured differential spectra, leading to ambiguities in assigning the origin of spectral signatures and ruling out quantitative interpretation of the spectra. Ideally, these methods would measure the underlying dielectric function (or the complex refractive index) which would then directly provide quantitative information on the transient excited state dynamics free of these ambiguities. Here we present and test a model independent route to transform differential transmission or reflection spectra, measured via conventional optical pump-probe spectroscopy, to changes in the quantitative transient dielectric function. We benchmark this method against changes in the real refractive index measured using time-resolved Frequency Domain Interferometry in prototypical inorganic and organic semiconductor films. Our methodology can be applied to existing and future pump-probe data sets, allowing for an unambiguous and quantitative characterisation of the transient photoexcited spectra of materials. This in turn will accelerate the adoption of pump-probe spectroscopy as a facile and robust materials characterisation and screening tool.

Published
2021
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4. Long-lived polarization memory in the electronic states of lead-halide perovskites from local structural dynamics.

Author

Rivett, Jasmine PH, Tan, Liang Z, Price, Michael B, Bourelle, Sean A, Davis, Nathaniel JLK, Xiao, James, Zou, Yatao, Middleton, Rox, Sun, Baoquan, Rappe, Andrew M, Credgington, Dan, and Deschler, Felix

Subjects
MD Multidisciplinary
Abstract

Anharmonic crystal lattice dynamics have been observed in lead halide perovskites on picosecond timescales. Here, we report that the soft nature of the perovskite crystal lattice gives rise to dynamic fluctuations in the electronic properties of excited states. We use linear polarization selective transient absorption spectroscopy to study the charge carrier relaxation dynamics in lead-halide perovskite films and nanocrystals. We find that photo-excited charge carriers maintain an initial polarization anisotropy for several picoseconds, independent of crystallite size and composition, and well beyond the reported timescales of carrier scattering. First-principles calculations find intrinsic anisotropies in the transition dipole moment, which depend on the orientation of light polarization and the polar distortion of the local crystal lattice. Lattice dynamics are imprinted in the optical transitions and anisotropies arise on the time-scales of structural motion. The strong coupling between electronic states and structural dynamics requires a unique interpretation of recombination and transport mechanisms.

Published
2018

11. Triplets with a Twist: Ultrafast Intersystem Crossing in a Series of Electron Acceptor Materials Driven by Conformational Disorder

Author

Murali, Sai Shruthi, primary, Gallaher, Joseph K., additional, Janiseck, Céline, additional, Tay, Elliot J., additional, Wagner, Isabella, additional, Thorn, Karen E., additional, Ilina, Aleksandra, additional, Tamming, Ronnie R., additional, Wang, Jiayu, additional, Sester, Clément, additional, Sutton, Joshua J., additional, Price, Michael B., additional, Gordon, Keith C., additional, Chen, Kai, additional, Zhan, Xiaowei, additional, Hodgkiss, Justin M., additional, and Hume, Paul A., additional

Published
2022
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14. Quasi‐Homojunction Organic Nonfullerene Photovoltaics Featuring Fundamentals Distinct from Bulk Heterojunctions

Author

Wang, Yifan, primary, Price, Michael B., additional, Bobba, Raja Sekhar, additional, Lu, Heng, additional, Xue, Jingwei, additional, Wang, Yilin, additional, Li, Mengyang, additional, Ilina, Aleksandra, additional, Hume, Paul A., additional, Jia, Boyu, additional, Li, Tengfei, additional, Zhang, Yuchen, additional, Davis, Nathaniel J. L. K., additional, Tang, Zheng, additional, Ma, Wei, additional, Qiao, Quinn, additional, Hodgkiss, Justin M., additional, and Zhan, Xiaowei, additional

Published
2022
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17. Luminescent light diffuser for diffuse lighting applications.

Author

Witzmann, Amy, Gordon, Calum K., Howarth, Jesse, Unsworth, Sophie, Rossi, Aurélien, Hardy, Jake, Price, Michael B., and Davis, Nathaniel J. L. K.

Abstract

The lighting industry currently accounts for a significant proportion of all energy demand. Luminescent white lighting is often impure, inefficient, expensive, and detrimentally emits as a point source, meaning the light is emitted from a focused point. A luminescent light diffuser offers the potential to create a spatially broad lighting fixture. We developed a luminescent light diffuser consisting of three commercially available luminescent dye species (rhodamine 6G, fluorescein, 7‐diethylamino‐4‐methylcoumarin) dispersed within a polymer matrix (polyvinyl alcohol), or commercial paint, and coated on a planar waveguide. A Light‐emitting diode (LED) (385 nm) is directed into the waveguide which excites the luminescent species, coating the panel, creating a device that emits spatially broad pure white light. As the emission depends on escape cone emission from the waveguide, the device's emission was found to depend highly on the coating film quality and components. We present two systems: a small 40 mm × 40 mm prototype, made using standard water‐soluble polymer (polyvinyl alcohol), to study the underlying operational principles, and a 100 mm × 100 mm device with optimized efficiency fabricated with a clear commercial paint. By doping the polymer matrix with scattering silica microparticles we achieved a maximum photon outcoupling efficiency of 78%, whilst maintaining colour purity with an increased device size of more than 300 times (compared with the input LED). This work shows that it is possible to construct an inexpensive and spatially broad lighting source, whilst maintaining colour purity at a low cost. [ABSTRACT FROM AUTHOR]

Published
2023
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18. Inter-ligand energy transfer in dye chromophores attached to high bandgap SiO2 nanoparticles

Author

Price, Michael B, Paton, Andrew, Gorman, Jeffrey, Wagner, Isabella, Laufersky, Geoffry, Chen, Kai, Friend, Richard H, Schmidt, Timothy W, Hodgkiss, Justin M, Davis, Nathaniel JLK, Price, Michael [0000-0003-2227-0514], Gorman, Jeffrey [0000-0002-6888-7838], Friend, Richard [0000-0001-6565-6308], and Apollo - University of Cambridge Repository

Subjects
0306 Physical Chemistry (incl. Structural), FOS: Nanotechnology, 0299 Other Physical Sciences, Nanotechnology, Bioengineering
Abstract

Artificial light harvesters require ordered arrangement of chromophores. We covalently attach three organic chromophore ligands to silicon dioxide nanoparticles. This allows us to study inter-ligand energy transfer when attached to SiO2 nanoparticles, creating a simple system with a large ratio of donors to acceptors. Using steady-state and transient spectroscopy measurements we quantify this energy transfer between ligands. We show a maximum transfer efficiency of 30% and measure the 2D diffusion length of anthracene carboxylic acid on SiO2 to be between 0.6 and 2.2 nm.

Published
2020
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20. Whispering-Gallery Mode Lasing in Perovskite Nanocrystals Chemically Bound to Silicon Dioxide Microspheres

Author

Price, Michael B., primary, Lewellen, Keiran, additional, Hardy, Jake, additional, Lockwood, Stephanie M., additional, Zemke-Smith, Chase, additional, Wagner, Isabella, additional, Gao, Meiqi, additional, Grand, Johan, additional, Chen, Kai, additional, Hodgkiss, Justin M., additional, Le Ru, Eric, additional, and Davis, Nathaniel J. L. K., additional

Published
2020
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23. Formation of Long-Lived Color Centers for Broadband Visible Light Emission in Low-Dimensional Layered Perovskites

Author

Booker, Edward P, Thomas, Tudor H, Quarti, Claudio, Stanton, Michael R, Dashwood, Cameron D, Gillett, Alexander J, Richter, Johannes M, Pearson, Andrew J, Davis, Nathaniel JLK, Sirringhaus, Henning, Price, Michael B, Greenham, Neil C, Beljonne, David, Dutton, Siân E, Deschler, Felix, Booker, Edward P [0000-0001-8155-8206], Quarti, Claudio [0000-0002-5488-1216], Greenham, Neil C [0000-0002-2155-2432], and Apollo - University of Cambridge Repository

Subjects
0306 Physical Chemistry (incl. Structural)
Abstract

We investigate the origin of the broadband visible emission in layered hybrid lead-halide perovskites and its connection with structural and photophysical properties. We study ⟨001⟩ oriented thin films of hexylammonium (HA) lead iodide, (C6H16N)2PbI4, and dodecylammonium (DA) lead iodide, (C12H28N)2PbI4, by combining first-principles simulations with time-resolved photoluminescence, steady-state absorption and X-ray diffraction measurements on cooling from 300 to 4 K. Ultrafast transient absorption and photoluminescence measurements are used to track the formation and recombination of emissive states. In addition to the excitonic photoluminescence near the absorption edge, we find a red-shifted, broadband (full-width at half-maximum of about 0.4 eV), emission band below 200 K, similar to emission from ⟨110⟩ oriented bromide 2D perovskites at room temperature. The lifetime of this sub-band-gap emission exceeds that of the excitonic transition by orders of magnitude. We use X-ray diffraction measurements to study the changes in crystal lattice with temperature. We report changes in the octahedral tilt and lattice spacing in both materials, together with a phase change around 200 K in DA2PbI4. DFT simulations of the HA2PbI4 crystal structure indicate that the low-energy emission is due to interstitial iodide and related Frenkel defects. Our results demonstrate that white-light emission is not limited to ⟨110⟩ oriented bromide 2D perovskites but a general property of this class of system, and highlight the importance of defect control for the formation of low-energy emissive sites, which can provide a pathway to design tailored white-light emitters.

Published
2018
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27. Mixed donor, phenanthroline photoactive MOFs with favourable CO2 selectivity.

Author

Setter, Caitlin J., Price, Michael B., Conte, Luke, Schmitt, Wolfgang, Batten, Stuart R., Richardson, Christopher, Hill, Matthew R., Babarao, Ravichandar, and Macreadie, Lauren K.

Subjects
*ADSORPTION capacity
Abstract

Mixed donor phenanthroline-carboxylate linkers were combined with MnII or ZnII to form photoactive MOFs with large pore apertures. The MOFs display high CO2 adsorption capacities, which consequently causes structural framework flexibility, and align with favorable metrics for selective CO2 capture. The photophysical properties of the MOFs were investigated, with the MnII MOF giving rise to short triplet LMCT lifetimes. [ABSTRACT FROM AUTHOR]

Published
2020
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28. Vertical Cavity Biexciton Lasing in 2D Dodecylammonium Lead Iodide Perovskites

Author

Booker, Edward P., primary, Price, Michael B., additional, Budden, Peter J., additional, Abolins, Haralds, additional, del Valle‐Inclan Redondo, Yago, additional, Eyre, Lissa, additional, Nasrallah, Iyad, additional, Phillips, Richard T., additional, Friend, Richard H., additional, Deschler, Felix, additional, and Greenham, Neil C., additional

Published
2018
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29. Formation of Long-Lived Color Centers for Broadband Visible Light Emission in Low-Dimensional Layered Perovskites

Author

Booker, Edward P., primary, Thomas, Tudor H., additional, Quarti, Claudio, additional, Stanton, Michael R., additional, Dashwood, Cameron D., additional, Gillett, Alexander J., additional, Richter, Johannes M., additional, Pearson, Andrew J., additional, Davis, Nathaniel J. L. K., additional, Sirringhaus, Henning, additional, Price, Michael B., additional, Greenham, Neil C., additional, Beljonne, David, additional, Dutton, Siân E., additional, and Deschler, Felix, additional

Published
2017
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30. Hot-carrier cooling and photoinduced refractive index changes in organic–inorganic lead halide perovskites

Author

Price, Michael B, Butkus, Justinas, Jellicoe, Tom C, Sadhanala, Aditya, Briane, Anouk, Halpert, Jonathan E, Broch, Katharina, Hodgkiss, Justin M, Friend, Richard H, Deschler, Felix, Price, Michael [0000-0003-2227-0514], Sadhanala, Aditya [0000-0003-2832-4894], Friend, Richard [0000-0001-6565-6308], Deschler, Felix [0000-0002-0771-3324], and Apollo - University of Cambridge Repository

Subjects
Condensed Matter::Materials Science, 0912 Materials Engineering, Article
Abstract

Metal-halide perovskites are at the frontier of optoelectronic research due to solution processability and excellent semiconductor properties. Here we use transient absorption spectroscopy to study hot-carrier distributions in CH3NH3PbI3 and quantify key semiconductor parameters. Above bandgap, non-resonant excitation creates quasi-thermalized carrier distributions within 100 fs. During carrier cooling, a sub-bandgap transient absorption signal arises at ∼1.6 eV, which is explained by the interplay of bandgap renormalization and hot-carrier distributions. At higher excitation densities, a ‘phonon bottleneck' substantially slows carrier cooling. This effect indicates a low contribution from inelastic carrier-impurity or phonon–impurity scattering in these polycrystalline materials, which supports high charge-carrier mobilities. Photoinduced reflectivity changes distort the shape of transient absorption spectra and must be included to extract physical constants. Using a simple band-filling model that accounts for these changes, we determine a small effective mass of mr=0.14 mo, which agrees with band structure calculations and high photovoltaic performance., The use of organic–inorganic metal-halide perovskites in hot-carrier devices depends on deepening the understanding of photoexcitations in these materials. Here, Price et al. use transient absorption spectroscopy to study hot-carrier distributions in CH3NH3PbI3 and quantify key semiconductors parameters.

Published
2015

31. Inter-ligand energy transfer in dye chromophores attached to high bandgap SiO2 nanoparticles.

Author

Price, Michael B., Paton, Andrew, Gorman, Jeffrey, Wagner, Isabella, Laufersky, Geoffry, Chen, Kai, Friend, Richard H., Schmidt, Timothy W., Hodgkiss, Justin M., and Davis, Nathaniel J. L. K.

Subjects
*ENERGY transfer, *CHROMOPHORES, *NANOPARTICLES, *SILICA, *CARBOXYLIC acids, *ANTHRACENE
Abstract

Artificial light harvesters require ordered arrangement of chromophores. We covalently attach three organic chromophore ligands to silicon dioxide nanoparticles. This allows us to study inter-ligand energy transfer when attached to SiO2 nanoparticles, creating a simple system with a large ratio of donors to acceptors. Using steady-state and transient spectroscopy measurements we quantify this energy transfer between ligands. We show a maximum transfer efficiency of 30% and measure the 2D diffusion length of anthracene carboxylic acid on SiO2 to be between 0.6 and 2.2 nm. [ABSTRACT FROM AUTHOR]

Published
2019
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33. Formation of Long-Lived Color Centers for Broadband Visible Light Emission in Low-Dimensional Layered Perovskites

Author

Booker, Edward P., Thomas, Tudor H., Quarti, Claudio, Stanton, Michael R., Dashwood, Cameron D., Gillett, Alexander J., Richter, Johannes M., Pearson, Andrew J., Davis, Nathaniel J. L. K., Sirringhaus, Henning, Price, Michael B., Greenham, Neil C., Beljonne, David, Dutton, Siân E., and Deschler, Felix

Abstract

We investigate the origin of the broadband visible emission in layered hybrid lead-halide perovskites and its connection with structural and photophysical properties. We study ⟨001⟩ oriented thin films of hexylammonium (HA) lead iodide, (C6H16N)2PbI4, and dodecylammonium (DA) lead iodide, (C12H28N)2PbI4, by combining first-principles simulations with time-resolved photoluminescence, steady-state absorption and X-ray diffraction measurements on cooling from 300 to 4 K. Ultrafast transient absorption and photoluminescence measurements are used to track the formation and recombination of emissive states. In addition to the excitonic photoluminescence near the absorption edge, we find a red-shifted, broadband (full-width at half-maximum of about 0.4 eV), emission band below 200 K, similar to emission from ⟨110⟩ oriented bromide 2D perovskites at room temperature. The lifetime of this sub-band-gap emission exceeds that of the excitonic transition by orders of magnitude. We use X-ray diffraction measurements to study the changes in crystal lattice with temperature. We report changes in the octahedral tilt and lattice spacing in both materials, together with a phase change around 200 K in DA2PbI4. DFT simulations of the HA2PbI4crystal structure indicate that the low-energy emission is due to interstitial iodide and related Frenkel defects. Our results demonstrate that white-light emission is not limited to ⟨110⟩ oriented bromide 2D perovskites but a general property of this class of system, and highlight the importance of defect control for the formation of low-energy emissive sites, which can provide a pathway to design tailored white-light emitters.

Published
2024
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35. Hot-carrier Cooling and Photoinduced Refractive Index Changes in Organic–inorganic Lead Halide Perovskites

Author

Price, Michael B., Butkus, Justinas, Jellicoe, Tom C., Sadhanala, Aditya, Briane, Anouk, Halpert, Jonathan Eugene, Broch, Katharina, Hodgkiss, Justin M., Friend, Richard H., Deschler, Felix, Price, Michael B., Butkus, Justinas, Jellicoe, Tom C., Sadhanala, Aditya, Briane, Anouk, Halpert, Jonathan Eugene, Broch, Katharina, Hodgkiss, Justin M., Friend, Richard H., and Deschler, Felix

Abstract

Metal-halide perovskites are at the frontier of optoelectronic research due to solution processability and excellent semiconductor properties. Here we use transient absorption spectroscopy to study hot-carrier distributions in CH 3 NH 3 PbI 3 and quantify key semiconductor parameters. Above bandgap, non-resonant excitation creates quasi-thermalized carrier distributions within 100fs. During carrier cooling, a sub-bandgap transient absorption signal arises at ∼1.6eV, which is explained by the interplay of bandgap renormalization and hot-carrier distributions. At higher excitation densities, a 'phonon bottleneck' substantially slows carrier cooling. This effect indicates a low contribution from inelastic carrier-impurity or phonon-impurity scattering in these polycrystalline materials, which supports high charge-carrier mobilities. Photoinduced reflectivity changes distort the shape of transient absorption spectra and must be included to extract physical constants. Using a simple band-filling model that accounts for these changes, we determine a small effective mass of m r =0.14 m o, which agrees with band structure calculations and high photovoltaic performance. © 2015 Macmillan Publishers Limited.

Published
2015

38. Energy Transfer between Anthracene-9-carboxylic Acid Ligands and CsPbBr3and CsPbI3Nanocrystals

Author

Hardy, Jake, Brett, Matthew W., Rossi, Aurélien, Wagner, Isabella, Chen, Kai, Timmer, Mattie S. M., Stocker, Bridget L., Price, Michael B., and Davis, Nathaniel J. L. K.

Abstract

Cesium lead halide perovskite nanocrystals show great promise for optoelectronic applications due to their thermal stability, wide absorption range, and intense photoluminescence. These properties make CsPbX3(X = Cl, Br, or I) nanocrystals great potential candidates for incorporation into light harvesting antenna complexes and photon multipliers via the coordination of organic chromophores as surface-bound ligands. In this paper, we demonstrate the synthesis of CsPbBr3and CsPbI3NCs and direct in situattachment of anthracene-9-carboxylic acid ligands to their surface. Using steady-state and time-resolved fluorescence measurements, we show that CsPbX3–anthracene systems demonstrate energy transfer from the anthracene ligands via FRET with efficiencies as high as 40%.

Published
2021
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39. Excimer Formation in Carboxylic Acid-Functionalized Perylene Diimides Attached to Silicon Dioxide Nanoparticles

Author

Gorman, Jeffrey, Pandya, Raj, Allardice, Jesse R, Price, Michael B, Schmidt, Timothy W, Friend, Richard H, Rao, Akshay, and Davis, Nathaniel JLK

Subjects
0306 Physical Chemistry (incl. Structural), FOS: Nanotechnology, 13. Climate action, Nanotechnology, Bioengineering, 0303 Macromolecular and Materials Chemistry, 7. Clean energy
Abstract

The creation of artificial light-harvesting complexes involves the ordered arrangement of chromophores in space. To guarantee efficient energy-transfer processes, organic dyes must be brought into close proximity, often leading to aggregation and the formation of excimer states. In recent years, the attachment of ligand-based chromophores to nanoparticles has also generated interest in relation to improved solar harvesting and spin-dependent electronic interactions such as singlet fission and upconversion. We explore the covalent attachment of two novel perylene-diimide (PDI) carboxylic acid ligands to silicon dioxide nanoparticles. This allows us to study electronic interactions between the ligands when attached to nanoparticles because these cannot couple to the wide band gap silicon dioxide. One of the synthesized PDI ligands has sterically hindering phenols in the bay position and undergoes minimal optical changes upon attachment, but the other forms an excimer state with a red-shifted and long-lived florescence. As such, molecular structure changes offer a method to tune weak and strong interactions between ligand layers on nanocrystal surfaces.

40. Luminescent light diffuser for diffuse lighting applications.

Author

Witzmann A, Gordon CK, Howarth J, Unsworth S, Rossi A, Hardy J, Price MB, and Davis NJLK

Subjects
Luminescence, Light, Polymers, Lighting, Polyvinyl Alcohol
Abstract

The lighting industry currently accounts for a significant proportion of all energy demand. Luminescent white lighting is often impure, inefficient, expensive, and detrimentally emits as a point source, meaning the light is emitted from a focused point. A luminescent light diffuser offers the potential to create a spatially broad lighting fixture. We developed a luminescent light diffuser consisting of three commercially available luminescent dye species (rhodamine 6G, fluorescein, 7-diethylamino-4-methylcoumarin) dispersed within a polymer matrix (polyvinyl alcohol), or commercial paint, and coated on a planar waveguide. A Light-emitting diode (LED) (385 nm) is directed into the waveguide which excites the luminescent species, coating the panel, creating a device that emits spatially broad pure white light. As the emission depends on escape cone emission from the waveguide, the device's emission was found to depend highly on the coating film quality and components. We present two systems: a small 40 mm × 40 mm prototype, made using standard water-soluble polymer (polyvinyl alcohol), to study the underlying operational principles, and a 100 mm × 100 mm device with optimized efficiency fabricated with a clear commercial paint. By doping the polymer matrix with scattering silica microparticles we achieved a maximum photon outcoupling efficiency of 78%, whilst maintaining colour purity with an increased device size of more than 300 times (compared with the input LED). This work shows that it is possible to construct an inexpensive and spatially broad lighting source, whilst maintaining colour purity at a low cost., (© 2022 The Authors. Luminescence published by John Wiley & Sons Ltd.)

Published
2023
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41. Mixed donor, phenanthroline photoactive MOFs with favourable CO 2 selectivity.

Author

Setter CJ, Price MB, Conte L, Schmitt W, Batten SR, Richardson C, Hill MR, Babarao R, and Macreadie LK

Abstract

Mixed donor phenanthroline-carboxylate linkers were combined with Mn II or Zn II to form photoactive MOFs with large pore apertures. The MOFs display high CO 2 adsorption capacities, which consequently causes structural framework flexibility, and align with favorable metrics for selective CO 2 capture. The photophysical properties of the MOFs were investigated, with the Mn II MOF giving rise to short triplet LMCT lifetimes.

Published
2020
Full Text
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42. Inter-ligand energy transfer in dye chromophores attached to high bandgap SiO 2 nanoparticles.

Author

Price MB, Paton A, Gorman J, Wagner I, Laufersky G, Chen K, Friend RH, Schmidt TW, Hodgkiss JM, and Davis NJLK

Abstract

Artificial light harvesters require ordered arrangement of chromophores. We covalently attach three organic chromophore ligands to silicon dioxide nanoparticles. This allows us to study inter-ligand energy transfer when attached to SiO2 nanoparticles, creating a simple system with a large ratio of donors to acceptors. Using steady-state and transient spectroscopy measurements we quantify this energy transfer between ligands. We show a maximum transfer efficiency of 30% and measure the 2D diffusion length of anthracene carboxylic acid on SiO2 to be between 0.6 and 2.2 nm.

Published
2019
Full Text
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