Your search keyword '"Ishteev, Arthur"' showing total 18 results

1. Bright perovskite light-emitting electrochemical cell utilizing CNT sheets as a tunable charge injector

Author

Alahbakhshi, Masoud, Papadimitratos, Alexios, Haroldson, Ross, Mishra, Aditya, Ishteev, Arthur, Velten, Josef, Gu, Qing, Slinker, Jason D., and Zakhidov, Anvar

Subjects

Physics - Applied Physics, Physics - Optics

Abstract

Organic-inorganic perovskite light-emitting devices have recently emerged as a reliable light source. Here, we developed a Single Layer Perovskite Light-Emitting Electrochemical Cells (SL-PeLEC) with laminated free-standing Carbon Nanotube Sheet (CNT) sheets as an effective charge electron injecting cathode electrode. The structure consists of bottom ITO-on-glass as a transparent electrode, the composite of CsPbBr3:PEO:LiPF6 with additive ionic salt as an emitting layer (EML) and 5 layers of CNT aerogel sheets as a top laminated cathode . Utilizing CNT free standing sheets laminated right on top of perovskite thin film in this simple single layer configuration has multiple benefits. Such CNT top cathode does not show any chemical degradation by reaction with halogens from perovskite, which is detrimental for metallic cathodes. Moreover, the formation of an internal p-i-n junction in perovskite EML composite layer by ionic migration under applied voltage bias and electric double layer (EDL) formation at each electrode interface is beneficially effecting CNT sheets by Li+ ionic doping and raises their Fermi level, further enhancing electron injection. Besides, inspired by successes of ionic additives in LECs and electrochemical doping of perovskite with alkali metals, we leveraged a lithium salt, LiPF6, within a CsPbBr3:PEO composite matrix to achieve optimal ionic redistribution and doping effects in this SL-PeLEC. Although initially CNT electrode has slightly high sheet resistance, the SL-PeLEC device has a low turn-on voltage of 2.6v and a maximum luminance intensity of 530 cd/m2, confirming the n-doping increased conductivity. This work provides a unique route toward flexible and bright perovskite LECs with stable and transparent CNT electrodes that can have injection efficiency tuned by poling induced ionic EDL-doping

Published

2020

2. Ambipolar perovskite light electrochemical cell for transparent display devices

Author

Ishteev, Arthur, Haroldson, Ross, Gets, Dmitry, Tsapenko, Alexey, Alahbakhshi, Masoud, Moon, Jiyoung, Martinez, Patricia, Usupov, Khabib, Nasibulin, Albert, Makarov, Sergey, and Zakhidov, Anvar

Subjects

Physics - Applied Physics

Abstract

Perovskite light-emitting diodes (PeLEDs) have recently attracted great research luminescence at room temperature in interest for their narrow emissions and solution processability. Remarkable progress has been achieved PeLEDs in recent years. Here we present the new configuration of ambipolar transparent perovskite light emitting device. The combination of voltage induced p-i-n formation and ionically doped carbon electrodes and allows electroluminescence in forward and reverse bias. Here we present easy-to-do transparent ambipolar light emitting subpixel based on inorganic perovskite and single wall carbon nanotubes. For this experiment PeLEDs were assembled using a glass substrate with ITO stripes as bottom electrode; spin-coated CsPbBr3/I3:PEO composite as emissive layer; single wall carbon nanotubes deposited by a simple press transfer process at room temperature. We demonstrate a concept of stacked multicolor tandem pixel. Stack of transparent light emitting units might allow fine color tuning in parallel tandem connection without segregation compared to mixed halide perovskites. This configuration conforms pixel downsizing and make to fabrication of emissive multijunction pixels in a stack.

Published

2019

3. Bright and Efficient Perovskite Light Emitting Electrochemical Cells Leveraging Ionic Additives

Author

Alahbakhshi, Masoud, Mishra, Aditya, Haroldson, Ross, Ishteev, Arthur, Moon, Jiyoung, Gu, Qing, Slinker, Jason D., and Zakhidov, Anvar A.

Subjects

Physics - Applied Physics, Physics - Optics

Abstract

Perovskite light-emitting diodes (PeLEDs) have drawn considerable attention for their favorable optoelectronic properties. Perovskite light-emitting electrochemical cells (PeLECs) _ devices that utilize mobile ions _ have recently been reported but have yet to reach the performance of the best PeLEDs. We leveraged a poly(ethylene oxide) electrolyte and lithium dopant in CsPbBr3 thin films to produce PeLECs of improved brightness and efficiency. In particular, we found that a single layer PeLEC from CsPbBr3:PEO:LiPF6 with 0.5% wt. LiPF6 produced highly efficient (22 cd/A) and bright (~15000 cd/m2) electroluminescence. To understand this improved performance among PeLECs, we characterized these perovskite thin films with photoluminescence (PL) spectroscopy, scanning electron microscopy (SEM), atomic force microscopy (AFM), X-ray photoelectron spectroscopy (XPS), and X-ray diffraction (XRD). These studies revealed that this optimal LiPF6 concentration improves electrical double layer formation, reduces the occurrence of voids, charge traps, and pinholes, and increases grain size and packing density.

Published

2019

4. Silver Nanowires on Carbon Nanotube Aerogel Sheets for Flexible, Transparent Electrodes

Author

Martinez, Patricia M., Ishteev, Arthur, Velten, Josef, Fahimi, Azin, Jurewicz, Izabela, Dalton, Alan B., Baughman, Ray H., and Zakhidov, Anvar A.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Flexible, free-standing transparent conducting electrodes (TCEs) with simultaneously tunable transmittances up to 98% and sheet resistances down to 11 {\Omega}/sq were prepared by a facile spray-coating method of silver nanowires (AgNWs) onto dry-spun multiwall carbon nanotube (MWNT) aerogels. Counterintuitively, the transmittance of the hybrid electrodes can be increased as the mass density of AgNWs within the MWNT aerogels increase, however, the final achievable transmittance depends on the initial transparency of the MWNT aerogels. At the same time, a strong decrease in sheet resistance is obtained when AgNWs form a percolated network along the MWNT aerogel. Additionally, anisotropic reduction in sheet resistance and polarized transmittance of AgNWs/MWNTs aerogel is achieved with this method. The final AgNWs/MWNTs hybrid TCEs transmittance and sheet resistance can be fine-tuned by spray-coating mechanisms or by the choice of initial MWNT aerogel density. Thus, a wide range of AgNWs/MWNTs hybrid TCEs with optimized optoelectronic properties can be achieved depending of the requirements needed. Finally, the free-standing AgNWs/MWNTs hybrid TCEs can be laminated onto a wide range of substrates without the need of a bonding aid., Comment: 28 pages, 5 figures, supplemental information

Published

2019

5. Mixed Halide Perovskite Light Emitting Solar Cell

Author

Gets, Dmitry, Ishteev, Arthur, Danilovskiy, Eduard, Saranin, Danila, Haroldson, Ross, Makarov, Sergey, and Zakhidov, Anvar

Subjects

Physics - Applied Physics

Abstract

Organic-inorganic halide perovskites recently have emerged as a promising material for highly effective light-emitting diodes (LEDs) and solar cells (SCs). Despite efficiencies of both perovskite SCs and LEDs are already among the best, the development of a perovskite dual functional device that is capable of working in these two regimes with high efficiencies is still challenging. Here we demonstrate that the dual functional device based on mixed halide perovskite CH3NH3PbBr2I can be switched from SC to LED with low threshold voltage Vth < 2 V by exposing to Sun at open circuit Voc or at small bias voltage of Vpol ~ 1 - 2 V. Such photo-poling creates in-situ p-i-n junction via methylammonium (CH3NH3+, MA+) and I-/Br- ions migration to interfaces, lowering charge injection barriers, and self-balancing injection currents in perovskite LED. We show that before the photo-poling, the electroluminescence (EL) is highly unstable in LED regime, whereas after the photo-poling, stabilized EL exhibits unusual dynamics, increasing with time and poling cycle number, while Vth and injection current decrease with cycling runs. Additionally, photo-induced and current-induced halide segregation accumulates with cycling, that is found beneficial for LED, increasing its efficiency and brightness, but reversibly degrading photovoltaic (PV) performance, which can be easily recovered., Comment: 15 pages; 4 fisures; 1 table

Published

2018

6. Technological parameters of thin-film pulsed laser scribing for perovskite photovoltaics

Author

Ishteev, Rustam, primary, Gostishchev, Pavel, additional, Tiukhova, Mariia, additional, Sorokin, Anton, additional, Ishteev, Arthur, additional, and Kondratenko, Vladimir, additional

Published

2024

7. Light-emitting perovskite solar cell with segregation enhanced self doping

Author

Gets, Dmitry, Saranin, Danila, Ishteev, Arthur, Haroldson, Ross, Danilovskiy, Eduard, Makarov, Sergey, and Zakhidov, Anvar

Published

2019

8. Changes in the hydrogen nuclear kinetic energy across the several phases of methylammonium lead tribromide.

Author

Romanelli, Giovanni, Andreani, Carla, Fazi, Laura, Ishteev, Arthur, Konstantinova, Kamilla, Preziosi, Enrico, Senesi, Roberto, and Di Carlo, Aldo

Subjects

NUCLEAR energy, KINETIC energy, INELASTIC neutron scattering, GROUND state energy, METHYLAMMONIUM, SINGLE crystals

Abstract

We present an experimental investigation of methylammonium lead tribromide single crystals in the orthorhombic, tetragonal, and cubic phases based on inelastic and deep inelastic neutron scattering experiments. We show how the average hydrogen nuclear kinetic energy, mainly affected by zero-point vibrational energies, shows differences larger compared to the changes simply related to temperature effects when moving from one phase to another. In particular, the Gaussian contribution to the average nuclear kinetic energy is larger in the tetragonal phase compared to the cubic and orthorhombic ones. Moreover, we find that the vibrational densities of states of MAPbBr3 single crystals in the orthorhombic phase are compatible with previously reported results on powder samples, and that the only vibrational modes that show slightly different frequencies compared to MAPbI3 are those in the energy range between 100 and 300 cm−1, related to librational/rotational modes. As these shifts are of about 10 cm−1 and do not affect any higher-energy vibrational mode, we conclude that the zero-point energies and average nuclear kinetic energies in the two-hybrid organic/inorganic perovskites are expected to be approximately the same within a harmonic framework. [ABSTRACT FROM AUTHOR]

Published

2022

9. Giant and Tunable Excitonic Optical Anisotropy in Single-Crystal Halide Perovskites

Author

Ermolaev, Georgy, primary, Pushkarev, Anatoly P., additional, Zhizhchenko, Alexey, additional, Kuchmizhak, Aleksandr A., additional, Iorsh, Ivan, additional, Kruglov, Ivan, additional, Mazitov, Arslan, additional, Ishteev, Arthur, additional, Konstantinova, Kamilla, additional, Saranin, Danila, additional, Slavich, Aleksandr, additional, Stosic, Dusan, additional, Zhukova, Elena S., additional, Tselikov, Gleb, additional, Di Carlo, Aldo, additional, Arsenin, Aleksey, additional, Novoselov, Kostya S., additional, Makarov, Sergey V., additional, and Volkov, Valentyn S., additional

Published

2023

10. Ionic Liquid Gating in Perovskite Solar Cells with Fullerene/Carbon Nanotube Collectors

Author

Mahmoodpoor, Abolfazl, primary, Verkhogliadov, Grigorii, additional, Melnikov, Roman, additional, Saranin, Danila S., additional, Voroshilov, Pavel M., additional, Sapori, Daniel, additional, Haroldson, Ross, additional, Nasibulin, Albert G., additional, Ishteev, Arthur R., additional, Ulyantsev, Vladimir, additional, Makarov, Sergey V., additional, and Zakhidov, Anvar A., additional

Published

2022

11. Investigation of structural and optical properties of MAPbBr3monocrystals under fast electron irradiation

Author

Ishteev, Arthur, primary, Konstantinova, Kamilla, additional, Ermolaev, Georgy, additional, Kiselev, Dmitry, additional, Muratov, Dmitry S., additional, Voronova, Marina, additional, Ilina, Tatiana, additional, Lagov, Peter, additional, Uvarov, Oleg, additional, Pavlov, Yuri, additional, Letovaltseva, Marta, additional, Arsenin, Aleksey, additional, Volkov, Valentyn, additional, Didenko, Sergey, additional, Saranin, Danila, additional, and Di Carlo, Aldo, additional

Published

2022

12. Single source chemical vapor deposition (ssCVD) for highly luminescent inorganic halide perovskite films

Author

Ishteev, Arthur, primary, Luchnikov, Lev, additional, Muratov, Dmitry S., additional, Voronova, Marina, additional, Forde, Aaron, additional, Inerbaev, Talgat, additional, Vanyushin, Vladislav, additional, Saranin, Danila, additional, Yusupov, Khabib, additional, Kuznetsov, Denis, additional, and Di Carlo, Aldo, additional

Published

2021

13. Single source chemical vapor deposition (ssCVD) for highly luminescent inorganic halide perovskite films

Author

Ishteev, Arthur, Luchnikov, Lev, Muratov, Dmitry S., Voronova, Marina, Forde, Aaron, Inerbaev, Talgat, Vanyushin, Vladislav, Saranin, Danila, Yusupov, Khabib, Kuznetsov, Denis, Di Carlo, Aldo, Ishteev, Arthur, Luchnikov, Lev, Muratov, Dmitry S., Voronova, Marina, Forde, Aaron, Inerbaev, Talgat, Vanyushin, Vladislav, Saranin, Danila, Yusupov, Khabib, Kuznetsov, Denis, and Di Carlo, Aldo

Abstract

Recent studies of lead halide perovskites demonstrate outstanding optoelectronic properties for thin-film semiconductor device application. Perovskite photovoltaic and light-emitting diodes are on the way to the mass production and spread in commercial semiconductor devices. The lab-to-fab transition of perovskite devices requires adaptation of perovskite deposition methods to industrial semiconductor fabrication standards. In this work, we demonstrated the formation of highly luminescence perovskite films by single-source chemical vapor deposition (ssCVD). Several stoichiometry compositions were prepared from inorganic precursors of CsBr and PbBr2 by dry mechanochemical synthesis with following evaporation. The combination of mechanochemical synthesis and ssCVD is an attractive approach due to the ability to scale up to industrial level and the precise control over the evaporation rate with a single source. Among all compositions CsBr:PbBr2, we show that CsPb2Br5 maintains phase composition and photoluminescent properties for powder and film. This work provides a comparative study of evaporated film properties (PL, XRD, TEM) and modeling calculations of interphase optical transitions., Funding Agencies|Ministry of Science and Higher Education of the Russian Federation [075-15-2021-635]

Published

2021

14. Investigation of structural and optical properties of MAPbBr3 monocrystals under fast electron irradiation.

Author

Ishteev, Arthur, Konstantinova, Kamilla, Ermolaev, Georgy, Kiselev, Dmitry, Muratov, Dmitry S., Voronova, Marina, Ilina, Tatiana, Lagov, Peter, Uvarov, Oleg, Pavlov, Yuri, Letovaltseva, Marta, Arsenin, Aleksey, Volkov, Valentyn, Didenko, Sergey, Saranin, Danila, and Di Carlo, Aldo

Abstract

Halide perovskites have demonstrated great potential for photovoltaics and detector applications, due to the strong absorption, large mobility lifetime product, structural defect tolerance, and wide range of chemical compositions with high Z atoms. Ionizing radiation sensing is one of the emerging directions for the use of halide perovskites, which already demonstrated high radiation hardness. In this work, we study the impact of radiation stress on MAPbBr3 perovskite crystals in order to assess further high-energy detection applications. We investigate the changes in structural and optical properties of perovskite crystals induced by e-beam irradiation with high flux (1015 electrons per cm2, energy 5 MeV) and an extremely high dose (25 MRAD). Ellipsometry measurements demonstrated a strong increase of the Urbach tails related to radiation-induced defects. A trap-induced Fermi level pinning at +0.56 eV was observed by Kelvin probe microscopy analysis of the irradiated MAPbBr3 monocrystals with respect to pristine crystals. However, X-ray diffraction analysis and optical depth analysis with two-photon excitation microscopy photoluminescence reveal that, despite the large irradiation dose, the structural and optical properties are stable. This clearly shows that MAPbBr crystals are stable for high energy applications. [ABSTRACT FROM AUTHOR]

Published

2022

15. Bright and Effectual Perovskite Light-Emitting Electrochemical Cells Leveraging Ionic Additives

Author

Alahbakhshi, Masoud, primary, Mishra, Aditya, additional, Haroldson, Ross, additional, Ishteev, Arthur, additional, Moon, Jiyoung, additional, Gu, Qing, additional, Slinker, Jason D., additional, and Zakhidov, Anvar A., additional

Published

2019

16. Silver Nanowires on Carbon Nanotube Aerogel Sheets for Flexible, Transparent Electrodes

Author

Martinez, Patricia M., primary, Ishteev, Arthur, additional, Fahimi, Azin, additional, Velten, Josef, additional, Jurewicz, Izabela, additional, Dalton, Alan B., additional, Collins, Steve, additional, Baughman, Ray H., additional, and Zakhidov, Anvar A., additional

Published

2019

17. Resonant halide perovskite nanoparticles

Author

Tiguntseva, Ekaterina Y., primary, Ishteev, Arthur R., additional, Komissarenko, Filipp E., additional, Zuev, Dmitry A., additional, Ushakova, Elena V., additional, Milichko, Valentin A., additional, Nesterov-Mueller, Alexander, additional, Makarov, Sergey V., additional, and Zakhidov, Anvar A., additional

Published

2017

18. Silver Nanowires on Carbon Nanotube Aerogel Sheets for Flexible, Transparent Electrodes

Author

Martinez, Patricia M., Ishteev, Arthur, Fahimi, Azin, Velten, Josef, Jurewicz, Izabela, Dalton, Alan B., Collins, Steve, Baughman, Ray H., and Zakhidov, Anvar A.

Abstract

Flexible, free-standing transparent conducting electrodes (TCEs) with simultaneously tunable transmittances up to 98% and sheet resistances down to 11 Ω/sq were prepared by a facile spray-coating method of silver nanowires (AgNWs) onto dry-spun multiwall carbon nanotube (MWNT) aerogels. Counterintuitively, the transmittance of the hybrid electrodes can be increased as the mass density of AgNWs within the MWNT aerogels increases; however, the final achievable transmittance depends on the initial transparency of the MWNT aerogels. Simultaneously, a strong decrease in sheet resistance is obtained when AgNWs form a percolated network along the MWNT aerogel. Additionally, anisotropic reduction in sheet resistance and polarized transmittance of AgNW/MWNT aerogels is achieved with this method. The final AgNW/MWNT hybrid TCEs transmittance and sheet resistance can be fine-tuned by spray-coating mechanisms or by choosing initial MWNT aerogel density. Thus, a wide range of AgNW/MWNT hybrid TCEs with optimized optoelectronic properties can be achieved depending of the requirements needed. Finally, the free-standing AgNW/MWNT hybrid TCEs can be laminated onto a wide range of substrates without the need of a bonding aid.

Published

2024