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116 results on '"Thomas, Tudor H."'

1. Dielectric control of reverse intersystem crossing in thermally-activated delayed fluorescence emitters

Author

Gillett, Alexander J., Pershin, Anton, Pandya, Raj, Feldmann, Sascha, Sneyd, Alexander J., Alvertis, Antonios M., Evans, Emrys W., Thomas, Tudor H., Cui, Lin-Song, Drummond, Bluebell H., Scholes, Gregory D., Olivier, Yoann, Rao, Akshay, Friend, Richard H., and Beljonne, David

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

Thermally-activated delayed fluorescence (TADF) enables organic semiconductors with charge transfer (CT)-type excitons to convert dark triplet states into bright singlets via a reverse intersystem crossing (rISC) process. Here, we consider the role of the dielectric environment in a range of TADF materials with varying changes in dipole moment upon optical excitation. In a dipolar reference emitter, TXO-TPA, environmental reorganisation after excitation in both solution and doped films triggers the formation of the full CT product state. This lowers the singlet excitation energy by 0.3 eV and minimises the singlet-triplet energy gap ({\Delta}EST). Using impulsive Raman measurements, we observe the emergence of two (reactant-inactive) modes at 412 and 813 cm-1 as a vibrational fingerprint of the CT product. In contrast, the dielectric environment plays a smaller role in the electronic excitations of a less dipolar material, 4CzIPN. Quantum-chemical calculations corroborate the appearance of these new product modes in TXO-TPA and show that the dynamic environment fluctuations are large compared to {\Delta}EST. The analysis of the energy-time trajectories and the corresponding free energy functions reveals that the dielectric environment significantly reduces the activation energy for rISC, thus increasing the rISC rate by up to three orders of magnitude when compared to a vacuum environment., Comment: 67 pages, 7 main-text figures

Published
2021
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3. Real-Time Observation of Exciton-Phonon Coupling Dynamics in Self-Assembled Hybrid Perovskite Quantum Wells

Author

Ni, Limeng, Huynh, Uyen, Cheminal, Alexandre, Thomas, Tudor H., Shivanna, Ravichandran, Sadhanala, Aditya, Hinrichsen, Ture, and Rao, Akshay

Subjects
Condensed Matter - Materials Science, Physics - Optics
Abstract

Self-assembled hybrid perovskite quantum wells have attracted attention due to their tunable emission properties, ease of fabrication and device integration. However, the dynamics of excitons in these materials, especially how they couple to phonons remains an open question. Here, we investigate two widely used materials, namely butylammonium lead iodide $(CH_3(CH_2)3NH_3)2PbI_4$ and hexylammonium lead iodide $(CH_3(CH_2)5NH_3)2PbI_4$, both of which exhibit broad photoluminescence tails at room temperature. We performed femtosecond vibrational spectroscopy to obtain a real-time picture of the exciton phonon interaction and directly identified the vibrational modes that couple to excitons. We show that the choice of the organic cation controls which vibrational modes the exciton couples to. In butylammonium lead iodide, excitons dominantly couple to a 100 cm-1 phonon mode, whereas in hexylammonium lead iodide, excitons interact with phonons with frequencies of 88 cm-1 and 137 cm-1. Using the determined optical phonon energies, we analyzed PL broadening mechanisms. At low temperatures (<100 K), the broadening is due to acoustic phonon scattering, whereas at high temperatures, LO phonon-exciton coupling is the dominant mechanism. Our results help explain the broad photoluminescence lineshapes observed in hybrid perovskite quantum wells and provide insights into the mechanism of exciton-phonon coupling in these materials., Comment: Some authors don't agree submit to preprint

Published
2017
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9. Charge transport physics of a unique class of rigid-rod conjugated polymers with fused-ring conjugated units linked by double carbon-carbon bonds

Author

Xiao, Mingfei, primary, Carey, Remington L., additional, Chen, Hu, additional, Jiao, Xuechen, additional, Lemaur, Vincent, additional, Schott, Sam, additional, Nikolka, Mark, additional, Jellett, Cameron, additional, Sadhanala, Aditya, additional, Rogers, Sarah, additional, Senanayak, Satyaprasad P., additional, Onwubiko, Ada, additional, Han, Sanyang, additional, Zhang, Zhilong, additional, Abdi-Jalebi, Mojtaba, additional, Zhang, Youcheng, additional, Thomas, Tudor H., additional, Mahmoudi, Najet, additional, Lai, Lianglun, additional, Selezneva, Ekaterina, additional, Ren, Xinglong, additional, Nguyen, Malgorzata, additional, Wang, Qijing, additional, Jacobs, Ian, additional, Yue, Wan, additional, McNeill, Christopher R., additional, Liu, Guoming, additional, Beljonne, David, additional, McCulloch, Iain, additional, and Sirringhaus, Henning, additional

Published
2021
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11. Linking Glass‐Transition Behavior to Photophysical and Charge Transport Properties of High‐Mobility Conjugated Polymers

Author

Xiao, Mingfei, primary, Sadhanala, Aditya, additional, Abdi‐Jalebi, Mojtaba, additional, Thomas, Tudor H., additional, Ren, Xinglong, additional, Zhang, Tao, additional, Chen, Hu, additional, Carey, Remington L., additional, Wang, Qijing, additional, Senanayak, Satyaprasad P., additional, Jellett, Cameron, additional, Onwubiko, Ada, additional, Moser, Maximilian, additional, Liao, Hailiang, additional, Yue, Wan, additional, McCulloch, Iain, additional, Nikolka, Mark, additional, and Sirringhaus, Henning, additional

Published
2020
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21. Author index

Author

Cohen, Jerry D. and Thomas, Tudor H.

Published
2000

22. 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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23. Chain Coupling and Luminescence in High-Mobility, Low-Disorder Conjugated Polymers

Author

Thomas, Tudor H., primary, Rivett, Jasmine P. H., additional, Gu, Qifei, additional, Harkin, David J., additional, Richter, Johannes M., additional, Sadhanala, Aditya, additional, Yong, Chaw Keong, additional, Schott, Sam, additional, Broch, Katharina, additional, Armitage, John, additional, Gillett, Alexander J., additional, Menke, S. Matthew, additional, Rao, Akshay, additional, Credgington, Dan, additional, and Sirringhaus, Henning, additional

Published
2019
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27. Linking Glass‐Transition Behavior to Photophysical and Charge Transport Properties of High‐Mobility Conjugated Polymers.

Author

Xiao, Mingfei, Sadhanala, Aditya, Abdi‐Jalebi, Mojtaba, Thomas, Tudor H., Ren, Xinglong, Zhang, Tao, Chen, Hu, Carey, Remington L., Wang, Qijing, Senanayak, Satyaprasad P., Jellett, Cameron, Onwubiko, Ada, Moser, Maximilian, Liao, Hailiang, Yue, Wan, McCulloch, Iain, Nikolka, Mark, and Sirringhaus, Henning

Subjects
ORGANIC field-effect transistors, CONJUGATED polymers, GLASS transition temperature, POLYMERS, LIGHT absorption, AMORPHOUS substances
Abstract

The measurement of the mechanical properties of conjugated polymers can reveal highly relevant information linking optoelectronic properties to underlying microstructures and the knowledge of the glass transition temperature (Tg) is paramount for informing the choice of processing conditions and for interpreting the thermal stability of devices. In this work, we use dynamical mechanical analysis to determine the Tg of a range of state‐of‐the‐art conjugated polymers with different degrees of crystallinity that are widely studied for applications in organic field‐effect transistors. We compare our measured values for Tg to the theoretical value predicted by a recent work based on the concept of effective mobility ζ. The comparison shows that for conjugated polymers with a modest length of the monomer units, the Tg values agree well with theoretically predictions. However, for the near‐amorphous, indacenodithiophene–benzothiadiazole family of polymers with more extended backbone units, values for Tg appear to be significantly higher, predicted by theory. However, values for Tg are correlated with the sub‐bandgap optical absorption suggesting the possible role of the interchain short contacts within materials' amorphous domains. [ABSTRACT FROM AUTHOR]

Published
2021
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28. Understanding charge transport in lead iodide perovskite thin-film field-effect transistors

Author

Senanayak, Satyaprasad P., Yang, Bingyan, Thomas, Tudor H., Giesbrecht, Nadja, Huang, Wenchao, Gann, Eliot, Nair, Bhaskaran, Goedel, Karl, Guha, Suchi, Moya, Xavier, McNeill, Christopher R., Docampo, Pablo, Sadhanala, Aditya, Friend, Richard H., Sirringhaus, Henning, Moya Raposo, Xavier [0000-0003-0276-1981], Sadhanala, Aditya [0000-0003-2832-4894], Friend, Richard [0000-0001-6565-6308], Sirringhaus, Henning [0000-0001-9827-6061], and Apollo - University of Cambridge Repository

Subjects
Computer Science::Hardware Architecture, ion migration, Condensed Matter::Materials Science, thin film transistor, Materials Science, Physics::Atomic and Molecular Clusters, SciAdv r-articles, Condensed Matter::Strongly Correlated Electrons, Physics::Chemical Physics, Research Articles, lead Halide perovskites, Research Article, band-transport
Abstract

Band-like charge transport is observed in lead halide perovskite field-effect transistors., Fundamental understanding of the charge transport physics of hybrid lead halide perovskite semiconductors is important for advancing their use in high-performance optoelectronics. We use field-effect transistors (FETs) to probe the charge transport mechanism in thin films of methylammonium lead iodide (MAPbI3). We show that through optimization of thin-film microstructure and source-drain contact modifications, it is possible to significantly minimize instability and hysteresis in FET characteristics and demonstrate an electron field-effect mobility (μFET) of 0.5 cm2/Vs at room temperature. Temperature-dependent transport studies revealed a negative coefficient of mobility with three different temperature regimes. On the basis of electrical and spectroscopic studies, we attribute the three different regimes to transport limited by ion migration due to point defects associated with grain boundaries, polarization disorder of the MA+ cations, and thermal vibrations of the lead halide inorganic cages.

Published
2017

29. Exciton–Phonon Interactions Govern Charge-Transfer-State Dynamics in CdSe/CdTe Two-Dimensional Colloidal Heterostructures

Author

Pandya, Raj, primary, Chen, Richard Y. S., additional, Cheminal, Alexandre, additional, Dufour, Marion, additional, Richter, Johannes M., additional, Thomas, Tudor H., additional, Ahmed, Shahab, additional, Sadhanala, Aditya, additional, Booker, Edward P., additional, Divitini, Giorgio, additional, Deschler, Felix, additional, Greenham, Neil C., additional, Ithurria, Sandrine, additional, and Rao, Akshay, additional

Published
2018
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30. Vibrationally Assisted Intersystem Crossing in Benchmark Thermally Activated Delayed Fluorescence Molecules

Author

Evans, Emrys W., primary, Olivier, Yoann, additional, Puttisong, Yuttapoom, additional, Myers, William K., additional, Hele, Timothy J. H., additional, Menke, S. Matthew, additional, Thomas, Tudor H., additional, Credgington, Dan, additional, Beljonne, David, additional, Friend, Richard H., additional, and Greenham, Neil C., additional

Published
2018
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36. 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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39. 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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43. Preparation of single-phase films of CH3NH3Pb(I1–xBrx)3 with sharp optical band edges

Author

Sadhanala, Aditya, Deschler, Felix, Thomas, Tudor H., Dutton, Siân E., Goedel, Karl C., Hanusch, Fabian C., Lai, May L., Steiner, Ullrich, Bein, Thomas, Docampo, Pablo, Cahen, David, Friend, Richard H., Sadhanala, Aditya [0000-0003-2832-4894], Deschler, Felix [0000-0002-0771-3324], Dutton, Sian [0000-0003-0984-5504], Friend, Richard [0000-0001-6565-6308], and Apollo - University of Cambridge Repository

Subjects
PDS, organometallic lead halide perovskite, iodide-bromide perovskite, Urbach energy
Abstract

Organometallic lead-halide perovskite-based solar cells now approach 18% efficiency. Introducing a mixture of bromide and iodide in the halide composition allows tuning of the optical bandgap. We prepare mixed bromide-iodide lead perovskite films CH3NH3Pb(I1-xBrx)3 (0 ≤ x ≤ 1) by spin-coating from solution and obtain films with monotonically varying bandgaps across the full composition range. Photothermal deflection spectroscopy, photoluminescence, and X-ray diffraction show that following suitable fabrication protocols these mixed lead-halide perovskite films form a single phase. The optical absorption edge of the pure triiodide and tribromide perovskites is sharp with Urbach energies of 15 and 23 meV, respectively, and reaches a maximum of 90 meV for CH3NH3PbI1.2Br1.8. We demonstrate a bromide-iodide lead perovskite film (CH3NH3PbI1.2Br1.8) with an optical bandgap of 1.94 eV, which is optimal for tandem cells of these materials with crystalline silicon devices.

Published
2014

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