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40 results on '"Hidalgo, Juanita"'

1. Vapor-Deposited n = 2 Ruddlesden–Popper Interface Layers Aid Charge Carrier Extraction in Perovskite Solar Cells

Author

Perini, Carlo AR, Castro-Mendez, Andres-Felipe, Kodalle, Tim, Ravello, Magdalena, Hidalgo, Juanita, Gomez-Dominguez, Martin, Li, Ruipeng, Taddei, Margherita, Giridharagopal, Rajiv, Pothoof, Justin, Sutter-Fella, Carolin M, Ginger, David S, and Correa-Baena, Juan-Pablo

Subjects
Macromolecular and Materials Chemistry, Chemical Sciences, Physical Chemistry, Engineering, Materials Engineering, Chemical sciences
Abstract

Interfacial passivation with bulky organic cations such as phenetylammonium iodide has enabled high performance for metal halide perovskite optoelectronic devices. However, the homogeneity of these interfaces and their formation dynamics are poorly understood. We study how Ruddlesden-Popper 2D phases form at a 3D perovskite interface when the 2D precursors are introduced via solution or via vapor. When using vapor deposition, we observe uniform coverage of the capping layer and the formation of a predominantly n = 2 Ruddlesden-Popper phase. In contrast, when using solution deposition, we observe the presence of a mixture of n = 2 and n = 1 in the film and the formation of aggregates of the organic cations. As a result of the better phase purity and uniformity, vapor deposition enables higher median solar cell performance with narrower distribution compared to solution-treated films. This study provides fundamental information that the perovskite community can use to better design capping layers to achieve higher charge extraction efficiencies.

Published
2023

5. Br-Induced Suppression of Low-Temperature Phase Transitions in Mixed-Cation Mixed-Halide Perovskites

Author

Hidalgo, Juanita, Breternitz, Joachim, Többens, Daniel M., LaFollette, Diana K., Pedorella, Charles N. B., Sher, Meng-Ju, Schorr, Susan, and Correa-Baena, Juan-Pablo

Abstract

Mixed-cation mixed-halide lead perovskites have been shown to be excellent candidates for solar energy conversion. However, understanding the structural phases of these mixed-ion perovskites across a wide range of operating temperatures, including very low temperatures for space applications, is crucial. In this study, we investigated the structure of formamidinium-based CsyFA1–yPb(BrxI1–x)3using low-temperature in situ synchrotron powder X-ray diffraction. Our findings revealed that substituting the I anion with Br in mixed-cation (Cs,FA) perovskites suppressed the phase transformation from tetragonal to orthorhombic at low temperatures. The addition of Br also prevented the formation of nonperovskite secondary phases. We gained fundamental insights into the structural behavior of these materials by creating a low-temperature phase diagram for the compositional set of mixed-cation mixed-halides. This understanding of the structural properties lays the groundwork for designing more robust and efficient energy materials capable of functioning under extreme temperature conditions, including space-based solar energy conversion.

Published
2024
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6. Accelerating Materials Discovery by High‐Throughput GIWAXS Characterization of Quasi‐2D Formamidinium Metal Halide Perovskites.

Author

Yang, Jonghee, Hidalgo, Juanita, Song, Donghoon, Kalinin, Sergei V., Correa‐Baena, Juan‐Pablo, and Ahmadi, Mahshid

Subjects
*PEROVSKITE, *METAL halides, *MANUFACTURING processes, *QUANTITATIVE research, *HETEROGENEITY
Abstract

The intriguing functionalities of emerging quasi‐2D metal halide perovskites (MHPs) have led to further exploration of this material class for sustainable and scalable optoelectronic applications. However, the chemical complexities in precursors—primarily determined by the 2D:3D compositional ratio—result in uncontrolled phase heterogeneities in these materials, which compromises the optoelectronic performances. Yet, this phenomenon remains poorly understood due to the massive quasi‐2D compositional space. To systematically explore the fundamental principles, herein, a high‐throughput automated synthesis‐characterization workflow is designed and implemented to formamidinium (FA)‐based quasi‐2D MHP system. It is revealed that the stable 3D‐like phases, where the α‐FAPbI3 surface is passivated by 2D spacers, exclusively emerge at the compositional range (35–55% of FAPbI3), deviating from the stoichiometric considerations. A quantitative crystallographic study via high‐throughput grazing‐incidence wide‐angle X‐ray scattering (GIWAXS) experiments integrated with automated peak analysis function quickly reveals that the 3D‐like phases are vertically aligned, facilitating vertical charge conduction that can be beneficial for optoelectronic applications. Together, this study uncovers the optimal 2D:3D compositional range for complex quasi‐2D MHP systems, realizing promising optoelectronic functionalities. The automated experimental workflow significantly accelerates materials discoveries and processing optimizations that are transferrable to other deposition methods, while providing fundamental insights into complex materials systems. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Synergistic Role of Water and Oxygen Leads to Degradation in Formamidinium-Based Halide Perovskites

Author

Hidalgo, Juanita, primary, Kaiser, Waldemar, additional, An, Yu, additional, Li, Ruipeng, additional, Oh, Zion, additional, Castro-Méndez, Andrés-Felipe, additional, LaFollette, Diana K., additional, Kim, Sanggyun, additional, Lai, Barry, additional, Breternitz, Joachim, additional, Schorr, Susan, additional, Perini, Carlo A. R., additional, Mosconi, Edoardo, additional, De Angelis, Filippo, additional, and Correa-Baena, Juan-Pablo, additional

Published
2023
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12. Enhanced charge carrier lifetime and mobility as a result of Rb and Cs incorporation in hybrid perovskite

Author

Massachusetts Institute of Technology. Department of Mechanical Engineering, Erodici, Matthew P, Pierone, Polly J, Hartono, Noor Titan Putri, Hidalgo, Juanita, Lai, Barry, Buonassisi, Tonio, Correa-Baena, Juan-Pablo, Sher, Meng-Ju, Massachusetts Institute of Technology. Department of Mechanical Engineering, Erodici, Matthew P, Pierone, Polly J, Hartono, Noor Titan Putri, Hidalgo, Juanita, Lai, Barry, Buonassisi, Tonio, Correa-Baena, Juan-Pablo, and Sher, Meng-Ju

Abstract

© 2021 Author(s). Alkali addition in organic-inorganic perovskite has become the standard recipe for achieving solar cells with efficiencies exceeding 20%, but the mechanism is not well understood. We use non-contact carrier lifetime measurements, mobility measurements, and synchrotron-based X-ray characterization techniques to show that there is a unique benefit to adding hybrid perovskite samples with Rb and Cs simultaneously. When either Rb or Cs is added, charge carrier mobility increases with alkali concentration. Charge carrier lifetime benefits from alkali incorporation as well, but is optimized with only moderate concentration at 1%. When both Rb and Cs are introduced, however, the high mobility is maintained and the charge carrier lifetime increases considerably. Our results show that when incorporated alone, Rb and Cs have very similar roles in a perovskite crystal, but when co-added, halide distribution becomes homogenized correlating with improved charge transport properties.

Published
2023

13. Interface Reconstruction from Ruddlesden–Popper Structures Impacts Stability in Lead Halide Perovskite Solar Cells (Adv. Mater. 51/2022)

Author

Perini, Carlo Andrea Riccardo, primary, Rojas‐Gatjens, Esteban, additional, Ravello, Magdalena, additional, Castro‐Mendez, Andrés‐Felipe, additional, Hidalgo, Juanita, additional, An, Yu, additional, Kim, Sanggyun, additional, Lai, Barry, additional, Li, Ruipeng, additional, Silva‐Acuña, Carlos, additional, and Correa‐Baena, Juan‐Pablo, additional

Published
2022
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17. PbI2 Nanocrystal Growth by Atomic Layer Deposition from Pb(tmhd)2 and HI

Author

Vagott, Jacob N., primary, Bairley, Kathryn, additional, Hidalgo, Juanita, additional, Perini, Carlo A. R., additional, Castro-Méndez, Andrés-Felipe, additional, Lombardo, Sarah, additional, Lai, Barry, additional, Zhang, Lihua, additional, Kisslinger, Kim, additional, Kacher, Josh, additional, and Correa-Baena, Juan-Pablo, additional

Published
2022
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19. Identifying high performance and durable methylammonium-free lead halide perovskites through high throughput synthesis and characterization

Author

An, Yu, primary, Perini, Carlo Andrea Riccardo, additional, Hidalgo, Juanita, additional, Castro-Méndez, Andrés-Felipe, additional, Jacob N., Vagott, additional, Li, Ruipeng, additional, Saidi, Wissam A., additional, Wang, Shirong, additional, Li, Xianggao, additional, and Correa-Baena, Juan-Pablo, additional

Published
2021
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26. Bulky Cation Diffusion in Lead Halide Perovskite Solar Cells

Author

Perini, Carlo, primary, Rojas-Gatjens, Esteban, additional, Ravello, Magdalena, additional, Castro Mendez, Andres Felipe, additional, Hidalgo, Juanita, additional, An, Yu, additional, Li, Ruipeng, additional, Silva-Acuña, Carlos, additional, and Correa-Baena, Juan-Pablo, additional

Published
2021
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27. Identifying high-performance and durable methylammonium-free lead halide perovskites via high-throughput synthesis and characterization

Author

An, Yu, primary, Perini, Carlo Andrea Riccardo, additional, Hidalgo, Juanita, additional, Castro-Méndez, Andrés-Felipe, additional, Vagott, Jacob N., additional, Li, Ruipeng, additional, Saidi, Wissam A., additional, Wang, Shirong, additional, Li, Xianggao, additional, and Correa-Baena, Juan-Pablo, additional

Published
2021
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31. The Doping Mechanism of Halide Perovskite Unveiled by Alkaline Earth Metals

Author

Phung, Nga, primary, Félix, Roberto, additional, Meggiolaro, Daniele, additional, Al-Ashouri, Amran, additional, Sousa e Silva, Gabrielle, additional, Hartmann, Claudia, additional, Hidalgo, Juanita, additional, Köbler, Hans, additional, Mosconi, Edoardo, additional, Lai, Barry, additional, Gunder, Rene, additional, Li, Meng, additional, Wang, Kai-Li, additional, Wang, Zhao-Kui, additional, Nie, Kaiqi, additional, Handick, Evelyn, additional, Wilks, Regan G., additional, Marquez, Jose A., additional, Rech, Bernd, additional, Unold, Thomas, additional, Correa-Baena, Juan-Pablo, additional, Albrecht, Steve, additional, De Angelis, Filippo, additional, Bär, Marcus, additional, and Abate, Antonio, additional

Published
2020
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32. The Role of Dimensionality on the Optoelectronic Properties of Oxide and Halide Perovskites, and their Halide Derivatives.

Author

Hoye, Robert L. Z., Hidalgo, Juanita, Jagt, Robert A., Correa‐Baena, Juan‐Pablo, Fix, Thomas, and MacManus‐Driscoll, Judith L.

Subjects
*PEROVSKITE, *HALIDES, *HEAVY elements, *LIGHT emitting diodes, *BAND gaps, *PHOTOVOLTAIC power generation
Abstract

Halide perovskite semiconductors have risen to prominence in photovoltaics and light‐emitting diodes (LEDs), but traditional oxide perovskites, which overcome the stability limitations of their halide counterparts, have also recently witnessed a rise in potential as solar absorbers. One of the many important factors underpinning these developments is an understanding of the role of dimensionality on the optoelectronic properties and, consequently, on the performance of the materials in photovoltaics and LEDs. This review article examines the role of structural and electronic dimensionality, as well as form factor, in oxide and halide perovskites, and in lead‐free alternatives to halide perovskites. Insights into how dimensionality influences the band gap, stability, charge‐carrier transport, recombination processes and defect tolerance of the materials, and the impact these parameters have on device performance are brought forward. Particular emphasis is placed on carrier/exciton‐phonon coupling, which plays a significant role in the materials considered, owing to their soft lattices and composition of heavy elements, and becomes more prominent as dimensionality is reduced. It is finished with a discussion of the implications on the classes of materials future efforts should focus on, as well as the key questions that need to be addressed. [ABSTRACT FROM AUTHOR]

Published
2022
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36. Cambio generacional en las relaciones de género y poder de mujeres rurales : el caso de Sotaquirá, Boyacá

Author

Ardila Hidalgo, Juanita

Subjects
Participación de la mujer, Género y poder, Mujeres campesinas
Abstract

The current social dynamics in Colombia have led to the transformation of the role of women in rural and urban contexts and the opening of new opportunities for their participation in different economic activities and social scenarios. In order to understand the changes in the power and gender relation at the rural scenario and its relation with the transformations of its social and economic context, a qualitative research was carried out with an intergenerational look around the situation of the women in the municipality of Sotaquirá in Boyacá. This research project deepened in the aspects of participation in the educational and labor field, use of the time, participation in social organizations and capacity of negotiation and decision were deepened. As a result of the research, processes of empowerment between generations have been found, as well as new dynamics that have contributed to the exercise of rural woman agency.--Tomado del Formato de Documento de Grado. Las actuales dinámicas sociales en Colombia han conducido a que tanto en contextos rurales y urbanos se haya transformado el rol de las mujeres y se hayan abierto nuevos espacios para su participación en diferentes actividades económicas y escenarios sociales. Con el objetivo de conocer cuáles son los cambios en las relaciones de poder y género en el escenario rural y su relación con las transformaciones de su contexto social y económico, se realizó una investigación cualitativa con una mirada intergeneracional en torno a la situación de las mujeres en el municipio de Sotaquirá en Boyacá. En esta se profundizaron los aspectos de participación en el campo educativo y laboral, uso del tiempo, participación en organizaciones sociales y capacidad de negociación y decisión. Como resultado de la investigación se hallaron procesos de empoderamiento entre generaciones, así como nuevas dinámicas que han contribuido al ejercicio de su agencia.--Tomado del Formato de Documento de Grado. Magíster en Estudios Interdisciplinarios sobre Desarrollo Maestría

Published
2017

37. PbI2Nanocrystal Growth by Atomic Layer Deposition from Pb(tmhd)2and HI

Author

Vagott, Jacob N., Bairley, Kathryn, Hidalgo, Juanita, Perini, Carlo A. R., Castro-Méndez, Andrés-Felipe, Lombardo, Sarah, Lai, Barry, Zhang, Lihua, Kisslinger, Kim, Kacher, Josh, and Correa-Baena, Juan-Pablo

Abstract

Atomic layer deposition (ALD) allows for fine control over the thickness, stoichiometry, and structural defects of materials. ALD provides a suitable route to deposit lead halides, which can further be converted to perovskites for photovoltaics, photoemission, and photodetection, among other applications. Deposition of lead halides by ALD has already begun to be explored; however, the precursors used in published processes are highly hazardous, require expensive fabrication processes, or contain impurities that can jeopardize the optoelectronic properties of metal halide perovskites after conversion. In this work, we deposited lead iodide (PbI2) by a facile ALD process involving only two readily accessible and low-cost precursors. PbI2nanocrystals were grown on soda-lime glass (SLG), silicon dioxide support grids, and silicon wafer substrates and provided the groundwork for further investigation into developing lead halide perovskite processes by ALD. The ALD-grown PbI2was characterized by annular dark-field scanning transmission electron microscopy (ADF-STEM), atomic force microscopy (AFM), high resolution transmission electron microscopy (HRTEM), X-ray fluorescence (XRF), and X-ray photoemission spectroscopy (XPS), among other methods. This work presents the first step to synthesize lead halide perovskites with atomic control for applications such as interfacial layers in photovoltaics and for deposition in microcavities for lasing.

Published
2022
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38. Formation of a Secondary Phase in Thermally Evaporated MAPbI3and Its Effects on Solar Cell Performance

Author

Castro-Méndez, Andrés-Felipe, Perini, Carlo A. R., Hidalgo, Juanita, Ranke, Daniel, Vagott, Jacob N., An, Yu, Lai, Barry, Luo, Yanqi, Li, Ruipeng, and Correa-Baena, Juan-Pablo

Abstract

Thermal evaporation is a promising deposition technique to scale up perovskite solar cells (PSCs) to large areas, but the lack of understanding of the mechanisms that lead to high-quality evaporated methylammonium lead triiodide (MAPbI3) films gives rise to devices with efficiencies lower than those obtained by spin coating. This work investigates the crystalline properties of MAPbI3deposited by the thermal coevaporation of PbI2and MAI, where the MAI evaporation rate is controlled by setting different temperatures for the MAI source and the PbI2deposition rate is controlled with a quartz crystal microbalance (QCM). Using grazing incident wide-angle X-ray scattering (GIWAXS) and X-ray diffraction (XRD), we identify the formation of a secondary orthorhombic phase (with a Pnmaspace group) that appears at MAI source temperatures below 155 °C. With synchrotron-based X-ray fluorescence (XRF) microscopy, we show that the changes in crystalline phases are not necessarily due to changes in stoichiometry. The films show a stochiometric composition when the MAI source is heated between 140 to 155 °C, and the samples become slightly MAI rich at 165 °C. Increasing the MAI temperature beyond 165 °C introduces an excess of MAI in the film, which promotes the formation of films with low crystallinity that contain low-dimensional perovskites. When they are incorporated in solar cells, the films deposited at 165 °C result in the champion power conversion efficiency, although the presence of a small amount of low-dimensional perovskite may lead to a lower open-circuit voltage. We hypothesize that the formation of secondary phases in evaporated films limits the performance of PSCs and that their formation can be suppressed by controlling the MAI source temperature, bringing the film toward a phase-pure tetragonal structure. Control of the phases during perovskite evaporation is therefore crucial to obtain high-performance solar cells.

Published
2022
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39. Significados que le otorgan jóvenes a su experiencia de consumo de SPA

Author

Escobar Cajamarca, Manuel Roberto, Escobar Altare, Andrea Paola, Dáger Mora, Yarima Alejandra, Lozano Concha, Camila, Páez Hidalgo, Juanita, Escobar Cajamarca, Manuel Roberto, Escobar Altare, Andrea Paola, Dáger Mora, Yarima Alejandra, Lozano Concha, Camila, and Páez Hidalgo, Juanita

Abstract

El presente trabajo busca identificar los significados que los y las jóvenes entre los 20 y 24 años le otorgan al consumo de sustancias psicoactivas (SPA) a partir de sus propias experiencias de consumo. De acuerdo con lo anterior, a través de una metodología cualitativa de construcción de relatos biográficos, se llevó a cabo un análisis a partir de lo que se entiende por juventud, la relación que hay con el consumo (efectos y uso diferenciado) y el estigma que hay sobre los y las consumidoras. La intención del estudio fue reconocer las diferentes relaciones que se pueden establecer con el uso de SPA, algunas de las cuales rompen con los imaginarios sociales frente al mismo y hacia los y las consumidoras. Así, se encontró que, el significado que los y las jóvenes le otorgan a sus experiencias de consumo se ve atravesado por aspectos como su relación con las sustancias (acercamiento, propósitos, etapa de la vida, postura frente a las SPA), las características de su consumo (sustancias, contextos, frecuencia, miedos, abstinencia) y los estereotipos a los que se enfrentan. Concluyendo, dado que cada experiencia es diferente, y que dichos elementos varían dependiendo de la realidad de cada persona, se debe evitar su generalización. Además, se encontró que dichas vivencias dan lugar a procesos de reflexión que posibilitan la adopción de una postura crítica frente al tema y prácticas de resistencia.

40. Formation of a Secondary Phase in Thermally Evaporated MAPbI 3 and Its Effects on Solar Cell Performance.

Author

Castro-Méndez AF, Perini CAR, Hidalgo J, Ranke D, Vagott JN, An Y, Lai B, Luo Y, Li R, and Correa-Baena JP

Abstract

Thermal evaporation is a promising deposition technique to scale up perovskite solar cells (PSCs) to large areas, but the lack of understanding of the mechanisms that lead to high-quality evaporated methylammonium lead triiodide (MAPbI 3 ) films gives rise to devices with efficiencies lower than those obtained by spin coating. This work investigates the crystalline properties of MAPbI 3 deposited by the thermal coevaporation of PbI 2 and MAI, where the MAI evaporation rate is controlled by setting different temperatures for the MAI source and the PbI 2 deposition rate is controlled with a quartz crystal microbalance (QCM). Using grazing incident wide-angle X-ray scattering (GIWAXS) and X-ray diffraction (XRD), we identify the formation of a secondary orthorhombic phase (with a Pnma space group) that appears at MAI source temperatures below 155 °C. With synchrotron-based X-ray fluorescence (XRF) microscopy, we show that the changes in crystalline phases are not necessarily due to changes in stoichiometry. The films show a stochiometric composition when the MAI source is heated between 140 to 155 °C, and the samples become slightly MAI rich at 165 °C. Increasing the MAI temperature beyond 165 °C introduces an excess of MAI in the film, which promotes the formation of films with low crystallinity that contain low-dimensional perovskites. When they are incorporated in solar cells, the films deposited at 165 °C result in the champion power conversion efficiency, although the presence of a small amount of low-dimensional perovskite may lead to a lower open-circuit voltage. We hypothesize that the formation of secondary phases in evaporated films limits the performance of PSCs and that their formation can be suppressed by controlling the MAI source temperature, bringing the film toward a phase-pure tetragonal structure. Control of the phases during perovskite evaporation is therefore crucial to obtain high-performance solar cells.

Published
2022
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