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1. Quantifying Defects in Thin Films using Machine Vision

Author

Taherimakhsousi, Nina, MacLeod, Benjamin P., Parlane, Fraser G. L., Morrissey, Thomas D., Booker, Edward P., Dettelbach, Kevan E., and Berlinguette, Curtis P.

Subjects
Physics - Applied Physics, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

The sensitivity of thin-film materials and devices to defects motivates extensive research into the optimization of film morphology. This research could be accelerated by automated experiments that characterize the response of film morphology to synthesis conditions. Optical imaging can resolve morphological defects in thin films and is readily integrated into automated experiments but the large volumes of images produced by such systems require automated analysis. Existing approaches to automatically analyzing film morphologies in optical images require application-specific customization by software experts and are not robust to changes in image content or imaging conditions. Here we present a versatile convolutional neural network (CNN) for thin-film image analysis which can identify and quantify the extent of a variety of defects and is applicable to multiple materials and imaging conditions. This CNN is readily adapted to new thin-film image analysis tasks and will facilitate the use of imaging in automated thin-film research systems., Comment: 17 pages, 5 figures

Published
2020

2. Optical projection and spatial separation of spin entangled triplet-pairs from the S1 (21Ag-) state of pi-conjugated systems

Author

Pandya, Raj, Gu, Qifei, Cheminal, Alexandre, Chen, Richard Y. S., Booker, Edward P., Soucek, Richard, Schott, Michel, Legrand, Laurent, Mathevet, Fabrice, Greenham, Neil C., Barisien, Thierry, Musser, Andrew J., Chin, Alex W., and Rao, Akshay

Subjects
Physics - Chemical Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Physics - Optics, Quantum Physics
Abstract

The S1 (21Ag-) state is an optically dark state of natural and synthetic pi-conjugated materials that can play a critical role in optoelectronic processes such as, energy harvesting, photoprotection and singlet fission. Despite this widespread importance, direct experimental characterisations of the electronic structure of the S1 (21Ag-) wavefunction have remained scarce and uncertain, although advanced theory predicts it to have a rich multi-excitonic character. Here, studying an archetypal polymer, polydiacetylene, and carotenoids, we experimentally demonstrate that S1 (21Ag-) is a superposition state with strong contributions from spin-entangled pairs of triplet excitons (1(TT)). We further show that optical manipulation of the S1 (21Ag-) wavefunction using triplet absorption transitions allows selective projection of the 1(TT) component into a manifold of spatially separated triplet-pairs with lifetimes enhanced by up to one order of magnitude and whose yield is strongly dependent on the level of inter-chromophore coupling. Our results provide a unified picture of 21Ag-states in pi-conjugated materials and open new routes to exploit their dynamics in singlet fission, photobiology and for the generation of entangled (spin-1) particles for molecular quantum technologies., Comment: 37 pages, 6 figures

Published
2020
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3. Phase Transition Induced Carrier Mass Enhancement in 2D Ruddlesden-Popper Perovskites

Author

Baranowski, Michal, Zelewski, Szymon J., Kepenekian, Mikael, Traoré, Boubacar, Urban, Joanna M., Surrente, Alessandro, Galkowski, Krzysztof, Maude, Duncan K., Kuc, Agnieszka, Booker, Edward P., Kudrawiec, Robert, Stranks, Samuel D., and Plochocka, Paulina

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

There is a variety of possible ways to tune the optical properties of 2D perovskites, though the mutual dependence between different tuning parameters hinders our fundamental understanding of their properties. In this work we attempt to address this issue for (C$_n$H$_{2n+1}$NH$_3$)$_2$PbI$_4$ (with n=4,6,8,10,12) using optical spectroscopy in high magnetic fields up to 67T. Our experimental results, supported by DFT calculations, clearly demonstrate that the exciton reduced mass increases by around 30% in the low temperature phase. This is reflected by a 2-3 fold decrease of the diamagnetic coefficient. Our studies show that the effective mass, which is an essential parameter for optoelectronic device operation, can be tuned by the variation of organic spacers and/or moderate cooling achievable using Peltier coolers. Moreover, we show that the complex absorption features visible in absorption/transmission spectra track each other in magnetic field providing strong evidence for the phonon related nature of the observed side bands., Comment: Jus accpeted in ACS Energy Letters (https://doi.org/10.1021/acsenergylett.9b01435)

Published
2019
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4. Maximising and Stabilising Luminescence in Metal Halide Perovskite Device Structures

Author

Abdi-Jalebi, Mojtaba, Andaji-Garmaroudi, Zahra, Cacovich, Stefania, Stavrakas, Camille, Philippe, Bertrand, Richter, Johannes M., Alsari, Mejd, Booker, Edward P., Hutter, Eline M., Pearson, Andrew J., Lilliu, Samuele, Savenije, Tom J, Rensmo, Håkan, Divitini, Giorgio, Ducati, Caterina, Friend, Richard H., and Stranks, Samuel D.

Subjects
Condensed Matter - Materials Science
Abstract

Metal halide perovskites are attracting tremendous interest for a variety of optoelectronic applications. The ability to tune the perovskite bandgap by tweaking the chemical compositions opens up new applications as coloured emitters and as components of tandem photovoltaics. Nevertheless, non-radiative losses are still limiting performance, with luminescence yields in state-of-the-art perovskite solar cells still far from 100% under solar illumination conditions. Furthermore, in mixed halide perovskite systems designed for continuous bandgap tunability (bandgaps ~1.7-1.9 eV), photo-induced ion segregation leads to bandgap instabilities. Here, we substantially mitigate both non-radiative losses and photo-induced ion migration in perovskite structures by decorating the surfaces and grain boundaries with passivating potassium-halide interlayers. We demonstrate external photo-luminescence quantum yields of 66%, translating to internal yields exceeding 95%. The high luminescence yields are achieved while maintaining high mobilities over 40 cm2V-1s-1, giving the elusive combination of both high luminescence and excellent charge transport. We find that the external luminescence yield when interfaced with electrodes in a solar cell device stack, a quantity that must be maximized to approach the efficiency limits, remains as high as 15%, indicating very clean interfaces. We also demonstrate the inhibition of photo-induced ion migration processes across a wide range of mixed halide perovskite bandgaps that otherwise show bandgap instabilities. We validate these results in full operating solar cells, highlighting the importance of stabilising luminescence in device structures. Our work represents a critical breakthrough in the construction of tunable halide perovskite films and interfaces that can approach the efficiency limits in tandem solar cells and coloured LEDs.

Published
2017

8. Maximizing and stabilizing luminescence from halide perovskites with potassium passivation

Author

Abdi-Jalebi, Mojtaba, Andaji-Garmaroudi, Zahra, Cacovich, Stefania, Stavrakas, Camille, Philippe, Bertrand, Richter, Johannes M., Alsari, Mejd, Booker, Edward P., Hutter, Eline M., Pearson, Andrew J., Lilliu, Samuele, Savenije, Tom J., Rensmo, Hkan, Divitini, Giorgio, Ducati, Caterina, Friend, Richard H., and Stranks, Samuel D.

Subjects
Luminescence -- Observations, Perovskite -- Optical properties, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): Mojtaba Abdi-Jalebi [1]; Zahra Andaji-Garmaroudi [1]; Stefania Cacovich [2]; Camille Stavrakas [1]; Bertrand Philippe [3]; Johannes M. Richter [1]; Mejd Alsari [1]; Edward P. Booker [1]; Eline M. Hutter [...]

Published
2018
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12. Chemistry - Part III, An Introduction to Organic Chemistry: Teacher's Curriculum Guide for the Thirteen-College Curriculum Program.

Author

Institute for Services to Education, Inc., Washington, DC. and Booker, Edward

Abstract

This booklet is a teacher's manual in a series of booklets that make up the core of a Physical Science course designed for the freshman year of college and used by teachers in the Thirteen College Curriculum Program. This program is a curriculum revision project in support of 13 predominantly Negro colleges and reflects educational research in the area of disadvantaged youth. This unit covers the fundamentals of organic chemistry. beginning with a discussion of ionic and covalent bonding. Exercises using molecular models are used to illustrate the geometry of basic organic molecules and the structural similarities of organic compounds in the same chemical classes. The kinds of bonds in a given molecule are related to chemical properties and chemical activity. A card game which reveals some important rules of organic chemistry is utilized. Experiments are also provided for some of the major concepts. (MLH)

Published
1971

13. Chemistry - Part III, An Introduction to Organic Chemistry: Student Workbook for the Thirteen-College Curriculum Program.

Author

Institute for Services to Education, Inc., Washington, DC. and Booker, Edward

Abstract

This booklet is a student manual in a series of booklets that make up the core of a Physical Science course designed for the freshman year of college and used by teachers in the 27 colleges participating in the Thirteen College curriculum Program. This program is a curriculum revision project in support of 13 predominantly Negro colleges and reflects educational research in the area of disadvantaged youth. This unit covers the the fundamental of organic chemistry, beginning with a discussion of ionic and covalent bonding. Exercises using molecular models are used to illustrate the geometry of basic organic molecules and the structural similarities of organic compounds in the same chemical classes. The kinds of bonds in a given molecule are related to chemical properties and chemical activity. A card game which reveals some important rules of organic chemistry is utilized. Experiments are also provided for some of the major concepts. (MLH)

Published
1971

14. Chemistry-Part 1. Student Workbook for the Thirteen-College Curriculum Program.

Author

Institute for Services to Education, Inc., Washington, DC. and Booker, Edward

Abstract

This booklet is a student manual in a series of booklets that make up the core of a Physical Science course designed for the freshman year of college and used by teachers in the 27 colleges participating in the Thirteen College Curriculum Program. This program is a curriculum revision project in support of 13 predominantly Negro colleges and reflects educational research in the area of disadvantaged youth. This unit covers the fundamental principles of chemistry, including distinguishing features of four chemical classes of elements and patterns and patterns of chemical combinations of elements. Experiments are provided to illustrate the major concepts of chemical combination. (MLH)

Published
1971

15. Chemistry. Teacher's Curriculum Guide for the Thirteen-College Curriculum Program.

Author

Institute for Services to Education, Inc., Washington, DC. and Booker, Edward

Abstract

This booklet is a teacher's manual in a series of booklets that make up the core of a Physical Science course designed for the freshman year of college and used by teachers in the 27 colleges participating in the Thirteen College Curriculum Program. This program is a curriculum revision project in support of 13 predominantly Negro colleges and reflects educational research in the area of disadvantaged youth. This unit covers the fundamental principles of chemistry, including distinguishing features of four chemical classes of elements and patterns of chemical combinations of elements. Experiments are provided to illustrate the major concepts of chemical combination. (MLH)

Published
1971

16. Optical Projection and Spatial Separation of Spin-Entangled Triplet Pairs from the S1 (21 Ag–) State of Pi-Conjugated Systems

Author

Pandya, Raj, primary, Gu, Qifei, additional, Cheminal, Alexandre, additional, Chen, Richard Y.S., additional, Booker, Edward P., additional, Soucek, Richard, additional, Schott, Michel, additional, Legrand, Laurent, additional, Mathevet, Fabrice, additional, Greenham, Neil C., additional, Barisien, Thierry, additional, Musser, Andrew J., additional, Chin, Alex W., additional, and Rao, Akshay, additional

Published
2020
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18. Optical Projection and Spatial Separation of Spin Entangled Triplet-Pairs from the S 1 (2 1A g -) State of Pi-Conjugated Systems

Author

Pandya, Raj, primary, Gu, Qifei, additional, Cheminal, Alexandre, additional, Chen, Richard Y. S., additional, Booker, Edward P., additional, Soucek, Richard, additional, Schott, Michel, additional, Legrand, Laurent, additional, Mathevet, Fabrice, additional, Greenham, Neil, additional, Barisien, Thierry, additional, Musser, Andrew, additional, Chin, Alex W., additional, and Rao, Akshay, additional

Published
2020
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19. 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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20. Phase-Transition-Induced Carrier Mass Enhancement in 2D Ruddlesden–Popper Perovskites

Author

Baranowski, Michal, primary, Zelewski, Szymon J., additional, Kepenekian, Mikael, additional, Traoré, Boubacar, additional, Urban, Joanna M., additional, Surrente, Alessandro, additional, Galkowski, Krzysztof, additional, Maude, Duncan K., additional, Kuc, Agnieszka, additional, Booker, Edward P., additional, Kudrawiec, Robert, additional, Stranks, Samuel D., additional, and Plochocka, Paulina, additional

Published
2019
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21. Microsecond Carrier Lifetimes, Controlled p-Doping, and Enhanced Air Stability in Low-Bandgap Metal Halide Perovskites

Author

Bowman, Alan R., primary, Klug, Matthew T., additional, Doherty, Tiarnan A. S., additional, Farrar, Michael D., additional, Senanayak, Satyaprasad P., additional, Wenger, Bernard, additional, Divitini, Giorgio, additional, Booker, Edward P., additional, Andaji-Garmaroudi, Zahra, additional, Macpherson, Stuart, additional, Ruggeri, Edoardo, additional, Sirringhaus, Henning, additional, Snaith, Henry J., additional, and Stranks, Samuel D., additional

Published
2019
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22. Influence of Grain Size on Phase Transitions in Halide Perovskite Films

Author

Stavrakas, Camille, primary, Zelewski, Szymon J., additional, Frohna, Kyle, additional, Booker, Edward P., additional, Galkowski, Krzysztof, additional, Ji, Kangyu, additional, Ruggeri, Edoardo, additional, Mackowski, Sebastian, additional, Kudrawiec, Robert, additional, Plochocka, Paulina, additional, and Stranks, Samuel D., additional

Published
2019
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25. Maximizing and stabilizing luminescence from halide perovskites with potassium passivation

Author

Abdi-Jalebi, Mojtaba (author), Andaji-Garmaroudi, Zahra (author), Cacovich, Stefania (author), Stavrakas, Camille (author), Philippe, Bertrand (author), Richter, Johannes M. (author), Alsari, Mejd (author), Booker, Edward P. (author), Hutter, E.M. (author), Savenije, T.J. (author), Abdi-Jalebi, Mojtaba (author), Andaji-Garmaroudi, Zahra (author), Cacovich, Stefania (author), Stavrakas, Camille (author), Philippe, Bertrand (author), Richter, Johannes M. (author), Alsari, Mejd (author), Booker, Edward P. (author), Hutter, E.M. (author), and Savenije, T.J. (author)

Abstract

Metal halide perovskites are of great interest for various high-performance optoelectronic applications. The ability to tune the perovskite bandgap continuously by modifying the chemical composition opens up applications for perovskites as coloured emitters, in building-integrated photovoltaics, and as components of tandem photovoltaics to increase the power conversion efficiency. Nevertheless, performance is limited by non-radiative losses, with luminescence yields in state-of-the-art perovskite solar cells still far from 100 per cent under standard solar illumination conditions. Furthermore, in mixed halide perovskite systems designed for continuous bandgap tunability (bandgaps of approximately 1.7 to 1.9 electronvolts), photoinduced ion segregation leads to bandgap instabilities. Here we demonstrate substantial mitigation of both non-radiative losses and photoinduced ion migration in perovskite films and interfaces by decorating the surfaces and grain boundaries with passivating potassium halide layers. We demonstrate external photoluminescence quantum yields of 66 per cent, which translate to internal yields that exceed 95 per cent. The high luminescence yields are achieved while maintaining high mobilities of more than 40 square centimetres per volt per second, providing the elusive combination of both high luminescence and excellent charge transport. When interfaced with electrodes in a solar cell device stack, the external luminescence yield - a quantity that must be maximized to obtain high efficiency - remains as high as 15 per cent, indicating very clean interfaces. We also demonstrate the inhibition of transient photoinduced ion-migration processes across a wide range of mixed halide perovskite bandgaps in materials that exhibit bandgap instabilities when unpassivated. We validate these results in fully operating solar cells. Our work represents an important advance in the construction of tunable metal halide perovskite films and interfaces that can ap, ChemE/Opto-electronic Materials

Published
2018
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26. Photon Reabsorption in Mixed CsPbCl$_{3}$:CsPbI$_{3}$ Perovskite Nanocrystal Films for Light-Emitting Diodes

Author

Davis, Nathaniel J. L. K., de la Peña, Francisco J., Tabachnyk, Maxim, Richter, Johannes M., Lamboll, Robin D., Booker, Edward P., Wisnivesky Rocca Rivarola, Florencia, Griffiths, James T., Ducati, Caterina, Menke, S. Matthew, Deschler, Felix, Greenham, Neil C., Lamboll, Robin [0000-0002-8410-037X], Booker, Edward [0000-0001-8155-8206], Griffiths, James [0000-0002-1198-1372], Ducati, Caterina [0000-0003-3366-6442], Menke, Stephen [0000-0003-4468-0223], Deschler, Felix [0000-0002-0771-3324], Greenham, Neil [0000-0002-2155-2432], and Apollo - University of Cambridge Repository

Subjects
3403 Macromolecular and Materials Chemistry, 34 Chemical Sciences, 3406 Physical Chemistry, Article
Abstract

Cesium lead halide nanocrystals, CsPbX$_{3}$ (X = Cl, Br, I), exhibit photoluminescence quantum efficiencies approaching 100% without the core-shell structures usually used in conventional semiconductor nanocrystals. These high photoluminescence efficiencies make these crystals ideal candidates for light-emitting diodes (LEDs). However, because of the large surface area to volume ratio, halogen exchange between perovskite nanocrystals of different compositions occurs rapidly, which is one of the limiting factors for white-light applications requiring a mixture of different crystal compositions to achieve a broad emission spectrum. Here, we use mixtures of chloride and iodide CsPbX$_{3}$ (X = Cl, I) perovskite nanocrystals where anion exchange is significantly reduced. We investigate samples containing mixtures of perovskite nanocrystals with different compositions and study the resulting optical and electrical interactions. We report excitation transfer from CsPbCl$_{3}$ to CsPbI$_{3}$ in solution and within a poly(methyl methacrylate) matrix via photon reabsorption, which also occurs in electrically excited crystals in bulk heterojunction LEDs.

Published
2017

27. 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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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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30. 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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31. Photon Reabsorption in Mixed CsPbCl3:CsPbI3 Perovskite Nanocrystal Films for Light-Emitting Diodes

Author

Davis, Nathaniel J. L. K., primary, de la Peña, Francisco J., additional, Tabachnyk, Maxim, additional, Richter, Johannes M., additional, Lamboll, Robin D., additional, Booker, Edward P., additional, Wisnivesky Rocca Rivarola, Florencia, additional, Griffiths, James T., additional, Ducati, Caterina, additional, Menke, S. Matthew, additional, Deschler, Felix, additional, and Greenham, Neil C., additional

Published
2017
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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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34. Photon Reabsorption in Mixed CsPbCl3:CsPbI3Perovskite Nanocrystal Films for Light-Emitting Diodes

Author

Davis, Nathaniel J. L. K., de la Peña, Francisco J., Tabachnyk, Maxim, Richter, Johannes M., Lamboll, Robin D., Booker, Edward P., Wisnivesky Rocca Rivarola, Florencia, Griffiths, James T., Ducati, Caterina, Menke, S. Matthew, Deschler, Felix, and Greenham, Neil C.

Abstract

Cesium lead halide nanocrystals, CsPbX3(X = Cl, Br, I), exhibit photoluminescence quantum efficiencies approaching 100% without the core–shell structures usually used in conventional semiconductor nanocrystals. These high photoluminescence efficiencies make these crystals ideal candidates for light-emitting diodes (LEDs). However, because of the large surface area to volume ratio, halogen exchange between perovskite nanocrystals of different compositions occurs rapidly, which is one of the limiting factors for white-light applications requiring a mixture of different crystal compositions to achieve a broad emission spectrum. Here, we use mixtures of chloride and iodide CsPbX3(X = Cl, I) perovskite nanocrystals where anion exchange is significantly reduced. We investigate samples containing mixtures of perovskite nanocrystals with different compositions and study the resulting optical and electrical interactions. We report excitation transfer from CsPbCl3to CsPbI3in solution and within a poly(methyl methacrylate) matrix via photon reabsorption, which also occurs in electrically excited crystals in bulk heterojunction LEDs.

Published
2017
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35. Perovskite Test: A High Throughput Method to Screen Ambient Encapsulation Conditions

Author

Booker, Edward, Boutin, Jean-Baptiste, Roux, Carine, Manceau, Matthieu, Berson, Solenn, and Cros, Stéphane

Abstract

Over the past decade, the power conversion efficiency of lead halide perovskite‐based solar cells has increased at an unprecedented rate such that it is now over 25%. Nevertheless, water facilitates one of the prominent degradation mechanisms of perovskites requiring strong encapsulation. To evaluate rapidly the effectiveness of encapsulation materials and design, an optical test of encapsulation procedures with simple sample fabrication in air is developed. The glass–glass samples of perovskite layers sealed with different thicknesses of a UV‐curing adhesive are fabricated. The analysis of the test data allows identification of gas permeation mechanisms from the edge of the device and it is found that one of the major permeation pathways is on the interfaces between the adhesive and the glass substrate and it depends on the adhesive thickness. Herein, a testing procedure with simple sample fabrication in air to monitor the effectiveness of encapsulation procedures and materials is developed. This optical test is based on the degradation of perovskite layers with water. This technique enables the determination of gas permeation mechanisms (in sealing materials, interfaces, and so on) and the rapid optimization of encapsulation design and materials.

Published
2020
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36. Microsecond Carrier Lifetimes, Controlled p-Doping, and Enhanced Air Stability in Low-Bandgap Metal Halide Perovskites

Author

Bowman, Alan R, Klug, Matthew T, Doherty, Tiarnan AS, Farrar, Michael D, Senanayak, Satyaprasad P, Wenger, Bernard, Divitini, Giorgio, Booker, Edward P, Andaji-Garmaroudi, Zahra, Macpherson, Stuart, Ruggeri, Edoardo, Sirringhaus, Henning, Snaith, Henry J, and Stranks, Samuel D

Subjects
3403 Macromolecular and Materials Chemistry, 34 Chemical Sciences, 3406 Physical Chemistry, equipment and supplies, 7. Clean energy, 4016 Materials Engineering, 40 Engineering
Abstract

Mixed lead-tin halide perovskites have sufficiently low bandgaps (∼1.2 eV) to be promising absorbers for perovskite-perovskite tandem solar cells. Previous reports on lead-tin perovskites have typically shown poor optoelectronic properties compared to neat lead counterparts: short photoluminescence lifetimes (

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

Author

Marion Dufour, Aditya Sadhanala, Sandrine Ithurria, Shahab Ahmed, Alexandre Cheminal, Johannes M. Richter, Tudor H. Thomas, Raj Pandya, Giorgio Divitini, Neil C. Greenham, Akshay Rao, Edward P. Booker, Richard Chen, Felix Deschler, Pandya, Raj [0000-0003-1108-9322], Cheminal, Alexandre [0000-0001-9969-672X], Dufour, Marion [0000-0001-9588-9524], Sadhanala, Aditya [0000-0003-2832-4894], Booker, Edward P [0000-0001-8155-8206], Divitini, Giorgio [0000-0003-2775-610X], Greenham, Neil C [0000-0002-2155-2432], Ithurria, Sandrine [0000-0002-4733-9883], Rao, Akshay [0000-0003-4261-0766], and Apollo - University of Cambridge Repository

Subjects
Photoluminescence, Phonon, Exciton, Physics::Optics, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Biochemistry, Catalysis, Condensed Matter::Materials Science, Colloid and Surface Chemistry, Monolayer, 0306 Physical Chemistry (incl. Structural), Condensed Matter::Other, business.industry, Chemistry, Heterojunction, General Chemistry, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, 021001 nanoscience & nanotechnology, Cadmium telluride photovoltaics, 0104 chemical sciences, Semiconductor, Chemical physics, Femtosecond, 0210 nano-technology, business
Abstract

CdSe/CdTe core-crown type-II nanoplatelet heterostructures are two-dimensional semiconductors that have attracted interest for use in light-emitting technologies due to their ease of fabrication, outstanding emission yields, and tunable properties. Despite this, the exciton dynamics of these complex materials, and in particular how they are influenced by phonons, is not yet well understood. Here, we use a combination of femtosecond vibrational spectroscopy, temperature-resolved photoluminescence (PL), and temperature-dependent structural measurements to investigate CdSe/CdTe nanoplatelets with a thickness of four monolayers. We show that charge-transfer (CT) excitons across the CdSe/CdTe interface are formed on two distinct time scales: initially from an ultrafast (∼70 fs) electron transfer and then on longer time scales (∼5 ps) from the diffusion of domain excitons to the interface. We find that the CT excitons are influenced by an interfacial phonon mode at ∼120 cm-1, which localizes them to the interface. Using low-temperature PL spectroscopy we reveal that this same phonon mode is the dominant mechanism in broadening the CT PL. On cooling to 4 K, the total PL quantum yield reaches close to unity, with an ∼85% contribution from CT emission and the remainder from an emissive sub-band-gap state. At room temperature, incomplete diffusion of domain excitons to the interface and scattering between CT excitons and phonons limit the PL quantum yield to ∼50%. Our results provide a detailed picture of the nature of exciton-phonon interactions at the interfaces of 2D heterostructures and explain both the broad shape of the CT PL spectrum and the origin of PL quantum yield losses. Furthermore, they suggest that to maximize the PL quantum yield both improved engineering of the interfacial crystal structure and diffusion of domain excitons to the interface, e.g., by altering the relative core/crown size, are required.

Published
2018

38. Quantitative Assessment of COVID-19 Lung Disease Severity: A Segmentation-based Approach.

Author

Booker EP, Paak M, and Negahdar M

Subjects
Humans, Lung diagnostic imaging, Algorithms, Tomography, X-Ray Computed methods, Thorax, COVID-19
Abstract

We present the use of mean Hounsfield units within lungs as a metric of disease severity for the comparison of image analysis models in patients with COPD and COVID. We used this metric to assess the performance of a novel 3D global context attention network for image segmentation that produces lung masks from thoracic HRCT scans. Results showed that the mean Hounsfield units enable a detailed comparison of our 3D implementation of the GC-Net model to the V-Net segmentation algorithm. We implemented a biomimetic data augmentation strategy and used a quantitative severity metric to assess its performance. Framing our investigation around lung segmentation for patients with respiratory diseases allows analysis of the strengths and weaknesses of the implemented models in this context.Clinical Relevance - Mean Hounsfield units within the lung volume can be used as an objective measure of respiratory disease severity for the comparison of CT scan analysis algorithms.

Published
2023
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39. Photon Reabsorption in Mixed CsPbCl 3 :CsPbI 3 Perovskite Nanocrystal Films for Light-Emitting Diodes.

Author

Davis NJ, de la Peña FJ, Tabachnyk M, Richter JM, Lamboll RD, Booker EP, Wisnivesky Rocca Rivarola F, Griffiths JT, Ducati C, Menke SM, Deschler F, and Greenham NC

Abstract

Cesium lead halide nanocrystals, CsPbX 3 (X = Cl, Br, I), exhibit photoluminescence quantum efficiencies approaching 100% without the core-shell structures usually used in conventional semiconductor nanocrystals. These high photoluminescence efficiencies make these crystals ideal candidates for light-emitting diodes (LEDs). However, because of the large surface area to volume ratio, halogen exchange between perovskite nanocrystals of different compositions occurs rapidly, which is one of the limiting factors for white-light applications requiring a mixture of different crystal compositions to achieve a broad emission spectrum. Here, we use mixtures of chloride and iodide CsPbX 3 (X = Cl, I) perovskite nanocrystals where anion exchange is significantly reduced. We investigate samples containing mixtures of perovskite nanocrystals with different compositions and study the resulting optical and electrical interactions. We report excitation transfer from CsPbCl 3 to CsPbI 3 in solution and within a poly(methyl methacrylate) matrix via photon reabsorption, which also occurs in electrically excited crystals in bulk heterojunction LEDs.

Published
2017
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