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Artykuły w czasopismach na temat „Hybrid Heterostructure Solar Cells”

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Data publikacji: 7 września 2023

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1

Shvarts M. Z., Andreeva A. V., Andronikov D. A., Emtsev K. V., Larionov V. R., Nakhimovich M. V., Pokrovskiy P. V., Sadchikov N. A., Yakovlev S. A. i Malevskiy D. A. "Hybrid concentrator-planar photovoltaic module with heterostructure solar cells". Technical Physics Letters 49, nr 2 (2023): 46. http://dx.doi.org/10.21883/tpl.2023.02.55371.19438.

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The paper presents a promising solution for photovoltaic modules that provides overcoming the main conceptual limitation for the concentrator concept in photovoltaics --- the impossibility to convert diffused (scattered) solar radiation coming to the panel of sunlight concentrators. The design of a hybrid concentrator-planar photovoltaic module based on heterostructure solar cells: A3B5 triple-junction and Si-HJT is presented. The results of initial outdoor studies of the module output characteristics are discussed and estimates of its energy efficiency are given. Keywords: hybrid concentrator-planar photovoltaic module, multijunction solar cell, Si-HJT planar photoconverter, diffusely scattered radiation.
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Yang, Ning, Cheng Zhu, Yihua Chen, Huachao Zai, Chenyue Wang, Xi Wang, Hao Wang i in. "An in situ cross-linked 1D/3D perovskite heterostructure improves the stability of hybrid perovskite solar cells for over 3000 h operation". Energy & Environmental Science 13, nr 11 (2020): 4344–52. http://dx.doi.org/10.1039/d0ee01736a.

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Chonsut, Teantong, Sirapat Pratontep, Anusit Keawprajak, Pisist Kumnorkaew i Navaphun Kayunkid. "Improvement of Efficiency of Polymer-Zinc Oxide Hybrid Solar Cells Prepared by Rapid Convective Deposition". Applied Mechanics and Materials 848 (lipiec 2016): 7–10. http://dx.doi.org/10.4028/www.scientific.net/amm.848.7.

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The aim of this research is to study improvement of power conversion efficiency (PCE) of organic-inorganic hybrid bulk heterostructure solar cell prepared by rapid convective deposition as a function of concentration of zinc oxide additive. The structure of hybrid solar cell used in this research is ITO/ZnO/P3HT:PC70BM:ZnO(nanoparticles)/MoO3/Au. By adding 5 mg/ml of ZnO nanoparticles in the active layer (P3HT:PC70BM), the PCE was increased from 0.46 to 1.09%. In order to reveal the origin of improving efficiency, surface morphology and optical properties of active layers were investigated by atomic force microscopy (AFM) and UV-Visible spectroscopy, respectively. The results clearly indicate that the enhancement of solar cell efficiency results from (i) the proper phase sepharation of electron donor and acceptor in the active layer and (ii) the better absorption of the active layer. This research work introduces an alternative way to improve solar cell efficiency by adding ZnO into active layer.
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Шварц, М. З., А. В. Андреева, Д. А. Андроников, К. В. Емцев, В. Р. Ларионов, М. В. Нахимович, П. В. Покровский, Н. А. Садчиков, С. А. Яковлев i Д. А. Малевский. "Гибридный концентраторно-планарный фотоэлектрический модуль с гетероструктурными солнечными элементами". Письма в журнал технической физики 49, nr 4 (2023): 15. http://dx.doi.org/10.21883/pjtf.2023.04.54520.19438.

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The paper presents a promising solution for photovoltaic modules that provides overcoming the main conceptual limitation for the concentrator concept in photovoltaics - the impossibility to convert diffused (scattered) solar radiation coming to the panel of sunlight concentrators. The design of a hybrid concentrator-planar photovoltaic module based on heterostructure solar cells: A3B5 triple-junction and Si-HJT is presented. The results of initial outdoor studies of the module output characteristics are discussed and estimates of its energy efficiency are given.
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Jeong, Hoon-Seok, Dongeon Kim, Seungin Jee, Min-Jae Si, Changjo Kim, Jung-Yong Lee, Yujin Jung i Se-Woong Baek. "Colloidal Quantum Dot:Organic Ternary Ink for Efficient Solution-Processed Hybrid Solar Cells". International Journal of Energy Research 2023 (6.02.2023): 1–14. http://dx.doi.org/10.1155/2023/4911750.

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The fabrication of heterostructures via solution process is one of the essential technologies for realizing efficient advanced-generation optoelectronics. Hybrid structures comprising colloidal quantum dots (CQD) and organic semiconducting molecules are garnering considerable research interest because of their complementing optical and electrical properties. However, blending both the materials and forming a stable electronic ink are a challenge owing to the solubility mismatch. Herein, a CQD:organic ternary-blended hybrid solar ink is devised, and efficient hybrid solar cells are demonstrated via single-step spin coating under ambient conditions. Specifically, the passivation of the benzoic acid ligand on the CQD surface enables the dissolution in low-polar solvent such as chlorobenzene, which yields a stable CQD:organic hybrid ink. The hybrid ink facilitates the formation of favorable thin-film morphologies and, consequently, improves the charge extraction efficiency of the solar cells. The resulting hybrid solar cells exhibit a power conversion efficiency of 15.24% that is the highest performance among all existing air-processed CQD:organic hybrid solar cells.
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Patel, Haresh S., J. R. Rathod, K. D. Patel, V. M. Pathak i R. Srivastava. "Optical Absorption Study of Molybdenum Diselenide and Polyaniline and their Use in Hybrid Solar Cells". Advanced Materials Research 665 (luty 2013): 239–53. http://dx.doi.org/10.4028/www.scientific.net/amr.665.239.

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The optical characterization of Molybdenum diselenide (MoSe2) and polyaniline (PANI) has been carried in the wavelength range 200 nm to 2500 nm. The detailed analysis of the optical properties has been carried out only for a range 200 nm to 800 nm from which the indirect band gap around 1.42 eV for MoSe2and 1 eV and 2.5 eV for PANI was evaluated. It was interesting to note that π π* transitions lead to two distinct orders of energy gaps. The hybrid cells were fabricated using a photosensitive interface between MoSe2and PANI. Various parameters of these heterostructure hybrid cells have been evaluated and it was found that the photoconversion efficiency was around 1%. Using the solar cell characteristics, the presence of trapping centers at the n-MoSe2/ p-PANI interface has been confirmed.
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Tavakoli, Mohammad Mahdi, Hossein Aashuri, Abdolreza Simchi i Zhiyong Fan. "Hybrid zinc oxide/graphene electrodes for depleted heterojunction colloidal quantum-dot solar cells". Physical Chemistry Chemical Physics 17, nr 37 (2015): 24412–19. http://dx.doi.org/10.1039/c5cp03571f.

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8

Kaptagai, G. A., B. M. Satanova, F. U. Abuova, N. O. Koilyk, A. U. Abuova, S. A. Nurkenov i A. P. Zharkymbekova. "OPTICAL PROPERTIES OF LOW-DIMENSIONAL SYSTEMS: METHODS OF THEORETICAL STUDY OF 2D MATERIALS". NNC RK Bulletin, nr 4 (31.12.2022): 35–40. http://dx.doi.org/10.52676/1729-7885-2022-4-35-40.

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Heterostructures based on graphene and two-dimensional films of nanostructured, ferromagnetic, transition metal oxides are promising for the development of new multifunctional materials for memory cells, quantum computer elements, Li-battery anodes, (photo) catalysts, supercapacitors, transistors, sensor materials, solar panels, fuel cells, electrochromic devices. A large volume of publications devoted to graphene and heterostructures based on it is and mainly their synthesis processes of hybrid structures. The methods of theoretical investigation of the optical properties of two-dimensional film materials, despite their diversity, require improvement. Consequently, the article presents methods of theoretical investigation of the optical properties of two-dimensional hybrid film structures in combination with ab-initio method.
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9

Hussain, Sajjad, Supriya A. Patil, Dhanasekaran Vikraman, Iqra Rabani, Alvira Ayoub Arbab, Sung Hoon Jeong, Hyun-Seok Kim, Hyosung Choi i Jongwan Jung. "Enhanced electrocatalytic properties in MoS2/MoTe2 hybrid heterostructures for dye-sensitized solar cells". Applied Surface Science 504 (luty 2020): 144401. http://dx.doi.org/10.1016/j.apsusc.2019.144401.

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10

Weingarten, M., T. Zweipfennig, A. Vescan i H. Kalisch. "Low-Temperature Processed Hybrid Organic/Silicon Solar Cells with Power Conversion Efficiency up to 6.5%". MRS Proceedings 1771 (2015): 201–6. http://dx.doi.org/10.1557/opl.2015.650.

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ABSTRACTHybrid organic/silicon heterostructures have become of great interest for photovoltaic application due to their promising features (e.g. easy fabrication in a low-temperature process) for cost-effective photovoltaics. This work is focused on solar cells with a hybrid heterojunction between the polymer poly(3-hexylthiophene-2,5-diyl) (P3HT) and n-doped monocrystalline silicon. As semi-transparent top contact, a thin (15 nm) Au layer was employed. Devices with different P3HT thicknesses were processed by spin-casting and compared with a reference Au/n-Si Schottky diode solar cell.The current density-voltage (J-V) measurements of the hybrid devices show a significant increase in open-circuit voltage (VOC) from 0.29 V up to 0.50 V for the best performing hybrid devices compared to the Schottky diode reference, while the short-circuit current density (JSC) does not change significantly. The increased VOC indicates that P3HT effectively reduces the reverse electron current into the gold contact. The wavelength-dependent JSC measurements show a decreased JSC in the wavelength range of P3HT absorption. This is related to the reduced JSC generation in silicon not being compensated by JSC generation in P3HT. It is concluded that the charge generation in P3HT is less efficient than in silicon.After a thermal annealing of the hybrid P3HT/silicon solar cells, we achieved power conversion efficiencies (PCE) (AM1.5 illumination) up to 6.5% with VOC of 0.52 V, JSC of 18.6 mA/cm² and a fill factor (FF) of 67%. This is more than twice the efficiency of the reference Schottky diode.
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11

Kurc, Beata, Marita Pigłowska, Łukasz Rymaniak i Paweł Fuć. "Modern Nanocomposites and Hybrids as Electrode Materials Used in Energy Carriers". Nanomaterials 11, nr 2 (19.02.2021): 538. http://dx.doi.org/10.3390/nano11020538.

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Over the past decades, the application of new hybrid materials in energy storage systems has seen significant development. The efforts have been made to improve electrochemical performance, cyclic stability, and cell life. To achieve this, attempts have been made to modify existing electrode materials. This was achieved by using nano-scale materials. A reduction of size enabled an obtainment of changes of conductivity, efficient energy storage and/or conversion (better kinetics), emergence of superparamagnetism, and the enhancement of optical properties, resulting in better electrochemical performance. The design of hybrid heterostructures enabled taking full advantage of each component, synergistic effect, and interaction between components, resulting in better cycle stability and conductivity. Nowadays, nanocomposite has ended up one of the foremost prevalent materials with potential applications in batteries, flexible cells, fuel cells, photovoltaic cells, and photocatalysis. The main goal of this review is to highlight a new progress of different hybrid materials, nanocomposites (also polymeric) used in lithium-ion (LIBs) and sodium-ion (NIBs) cells, solar cells, supercapacitors, and fuel cells and their electrochemical performance.
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12

Mustafa, Haveen A., Dler A. Jameel, Hussien I. Salim i Sabah M. Ahmed. "The Effects Of N-GaAs Substrate Orientations on The Electrical Performance of PANI/N-GaAs Hybrid Solar Cell Devices". Science Journal of University of Zakho 8, nr 4 (30.12.2020): 149–53. http://dx.doi.org/10.25271/sjuoz.2020.8.4.773.

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This paper reports the fabrication and electrical characterization of hybrid organic-inorganic solar cell based on the deposition of polyaniline (PANI) on n-type GaAs substrate with three different crystal orientations namely Au/PANI/(100) n-GaAs/(Ni-Au), Au/PANI/(110) n-GaAs/(Ni-Au), and Au/PANI/(311)B n-GaAs/(Ni-Au) using spin coating technique. The effect of crystallographic orientation of n-GaAs on solar cell efficiency of the hybrid solar cell devices has been studied utilizing current density-voltage (J-V) measurements under illumination conditions. Additionally, the influence of planes of n-GaAs on the diode parameters of the same devices has been investigated by employing current-voltage (I-V) characteristics in the dark conditions at room temperature. The experimental observations showed that the best performance was obtained for solar cells fabricated with the structure of Au/PANI/(311)B n-GaAs/(Ni-Au). The open-circuit voltage (Voc), short circuit current density (Jsc), and solar cell efficiency () of the same device were shown the values of 342 mV, 0.294 mAcm-2, 0.0196%, respectively under illuminated condition. All the solar cell characteristics were carried out under standard AM 1.5 at room temperature. Also, diode parameters of PANI/(311)B n-GaAs heterostructures were calculated from the dark I-V measurements revealed the lower reverse saturation current (Io) of 3.0×10-9A, higher barrier height () of 0.79 eV and lower ideality factor (n) of 3.16.
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13

Cui, Qi, Changwen Liu, Fan Wu, Wenjin Yue, Zeliang Qiu, Hui Zhang, Feng Gao, Wei Shen i Mingtai Wang. "Performance Improvement in Polymer/ZnO Nanoarray Hybrid Solar Cells by Formation of ZnO/CdS-Core/Shell Heterostructures". Journal of Physical Chemistry C 117, nr 11 (8.03.2013): 5626–37. http://dx.doi.org/10.1021/jp312728t.

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14

Feng, Hao-Lin, Wu-Qiang Wu, Hua-Shang Rao, Quan Wan, Long-Bin Li, Dai-Bin Kuang i Cheng-Yong Su. "Three-Dimensional TiO2/ZnO Hybrid Array as a Heterostructured Anode for Efficient Quantum-Dot-Sensitized Solar Cells". ACS Applied Materials & Interfaces 7, nr 9 (25.02.2015): 5199–205. http://dx.doi.org/10.1021/am507983y.

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Xu, Xiaoyun, Xiong Wang, Yange Zhang i Pinjiang Li. "Ion-exchange synthesis and improved photovoltaic performance of CdS/Ag2S heterostructures for inorganic-organic hybrid solar cells". Solid State Sciences 61 (listopad 2016): 195–200. http://dx.doi.org/10.1016/j.solidstatesciences.2016.10.006.

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KAFFAH, SILMI, LINA JAYA DIGUNA, SURIANI ABU BAKAR, MUHAMMAD DANANG BIROWOSUTO i ARRAMEL. "ELECTRONIC AND OPTICAL MODIFICATION OF ORGANIC-HYBRID PEROVSKITES". Surface Review and Letters 28, nr 08 (5.07.2021): 2140010. http://dx.doi.org/10.1142/s0218625x21400102.

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Renewed interest has brought significant attention to tune coherently the electronic and optical properties of hybrid organic–inorganic perovskites (HOIPs) in recent years. Tailoring the intimate structure–property relationship is a primary target toward the advancement of light-harvesting technologies. These constructive progresses are expected to promote staggering endeavors within the solar cells community that needs to be revisited. Several considerations and strategies are introduced mainly to illustrate the importance of structural stability, interfacial alignment, and photo-generated carriers extraction across the perovskite heterostructures. Here, we review recent strides of such vast compelling diversity in order to shed some light on the interplay of the interfacial chemistry, photophysics, and light-emitting properties of HOIPs via molecular engineering or doping approach. In addition, we outline several fundamental knowledge processes across the role of charge transfer, charge carrier extraction, passivation agent, bandgap, and emission tunability at two-dimensional (2D) level of HOIPs/molecule heterointerfaces. An extensive range of the relevant work is illustrated to embrace new research directions for employing organic molecules as targeted active layer in perovskite-based devices. Ultimately, we address important insights related to the physical phenomena at the active molecules/perovskites interfaces that deserve careful considerations. This review specifically outlines a comprehensive overview of surface-based interactions that fundamentally challenges the delicate balance between organic materials and perovskites, which promotes bright future of desired practical applications.
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Munoz Garcia, Ana Belen. "(Invited, Digital Presentation) Charge Transfer at Heterogeneous Functional Interfaces in Energy Conversion and Storage Devices: A Quantum Chemical Perspective". ECS Meeting Abstracts MA2022-02, nr 57 (9.10.2022): 2180. http://dx.doi.org/10.1149/ma2022-02572180mtgabs.

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Energy conversion and storage devices are triggering the ecological transition toward a sustainable economic and social development. In these technological devices, several constituent materials and their interfaces undergo charge/mass transport processes over different time/space scales, from local fast electron transfer to long-range slow ionic diffusion. Often, experimental techniques cannot dissect such processes at the nanoscale, which hinders a rational design of new devices with better performances. Thus, the application of computational modeling tools with atomistic resolution represents an ongoing revolution in materials design and device development. In this context, this contribution will display how cutting edge DFT-based approaches allow to unveil the charge transfer mechanisms in several different electrochemical environments: (i) at hybrid interfaces considering promising Cu-based molecular redox couples in dye sensitized solar cell photoanodes [1,2], (ii) at heterogeneous interface in last generation perovskite solar cells [3] and (iii) ion-electrode interfaces in the context of nanostructured electrodes in sodium-ion batteries [4,5,6]. The results will provide new insights on the structure-property-functional relationships of different functional materials/interfaces and will pave the basis of new design principles for further improvements of the corresponding devices. [1] AB Muñoz-García, I Benesperi , G. Boschloo, JJ Concepcion, JH Delcamp, EA Gibson, GJ Meyer, M Pavone, H Pettersson, A Hagfeldt, M Freitag Dy e-sensitized Solar Cells strike back 2021 Chemical Society Reviews 50, 12450-12550 [2] I Benesperi, H Michaels, T Edvinsson, M Pavone, MR Probert, P Waddel, AB Muñoz-García*, M Freitag Dynamic dimer copper coordination redox shuttles 2022 Chem 8, 439-449 (Cover Article) [3] A Pecoraro, A De Maria, P Delli Veneri, M Pavone, AB Muñoz-García* Interfacial electronic features in methyl-ammonium lead iodide and p-type oxide heterostructures: new insights for inverted perovskite solar cells 2020 Physical Chemistry Chemical Physics 22, 28401-28413 [4] A Massaro, AB Muñoz-García, PP Prosini, C Gerbaldi, M Pavone Unveiling Oxygen Redox Activity in P2-Type NaxNi0.25Mn0.68O2 High-Energy Cathode for Na-Ion Batteries 2021 ACS Energy Letters 6, 2470-2480 [5] A Massaro, A. Langella, AB Muñoz-García, M Pavone First-principles insights on anion redox activity in NaxFe1/8Ni1/8Mn3/4O2: Towards efficient high-energy cathodes for Na-ion batteries 2022 Journal of American Ceramic Society https://doi.org/10.1111/jace.18494 [6] A Massaro, AB Muñoz-García, P Maddalena, F Bella, G Meligrana, C Gerbaldi, M Pavone First-principles study of Na insertion at TiO2 anatase surfaces: new hints for Na-ion battery design 2020 Nanoscale Advances 2, 2745-2751
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Andreev, V. M. "Heterostructure solar cells". Semiconductors 33, nr 9 (wrzesień 1999): 942–45. http://dx.doi.org/10.1134/1.1187808.

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Günes, Serap, i Niyazi Serdar Sariciftci. "Hybrid solar cells". Inorganica Chimica Acta 361, nr 3 (luty 2008): 581–88. http://dx.doi.org/10.1016/j.ica.2007.06.042.

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Wang, Peng, Xiaoqiang Li, Zhijuan Xu, Zhiqian Wu, Shengjiao Zhang, Wenli Xu, Huikai Zhong i in. "Tunable graphene/indium phosphide heterostructure solar cells". Nano Energy 13 (kwiecień 2015): 509–17. http://dx.doi.org/10.1016/j.nanoen.2015.03.023.

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Suraprapapich, Suwaree, Supachok Thainoi, Songphol Kanjanachuchai i Somsak Panyakeow. "Quantum dot integration in heterostructure solar cells". Solar Energy Materials and Solar Cells 90, nr 18-19 (listopad 2006): 2968–74. http://dx.doi.org/10.1016/j.solmat.2006.06.011.

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Brus, V. V., M. A. Gluba, X. Zhang, K. Hinrichs, J. Rappich i N. H. Nickel. "Stability of graphene-silicon heterostructure solar cells". physica status solidi (a) 211, nr 4 (30.01.2014): 843–47. http://dx.doi.org/10.1002/pssa.201330265.

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Nkele, A. C., S. U. Offiah, C. P. Chime i F. I. Ezema. "Review on advanced nanomaterials for hydrogen production". IOP Conference Series: Earth and Environmental Science 1178, nr 1 (1.05.2023): 012001. http://dx.doi.org/10.1088/1755-1315/1178/1/012001.

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Abstract Global fuel consumption and harmful gaseous emissions diverted energy sources to alternative means. Solar water splitting amidst other solar conversion methods is the most clean and efficient means of hydrogen production. 21st century technologies have delved into adopting nanomaterials of high efficiency to treat environmental pollution and produce hydrogen through electrochemical, photocatalytic, or electrophotocatalytic processes due to their outstanding properties. We reviewed diverse means of producing hydrogen through the use of advanced nanomaterials like carbon nanomaterials, solid inorganic-organic hybrids, metallic oxides/sulfides, quantum dots, composite heterostructures, microbial electrolysis cells etc. Overview on hydrogen production, ways of generating hydrogen, advanced nanomaterials for hydrogen production, and recent progress in hydrogen-producing nanomaterials have been discussed.
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Lin, Shisheng, Peng Wang, Xiaoqiang Li, Zhiqian Wu, Zhijuan Xu, Shengjiao Zhang i Wenli Xu. "Gate tunable monolayer MoS2/InP heterostructure solar cells". Applied Physics Letters 107, nr 15 (12.10.2015): 153904. http://dx.doi.org/10.1063/1.4933294.

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Mapel, J. K., M. Singh, M. A. Baldo i K. Celebi. "Plasmonic excitation of organic double heterostructure solar cells". Applied Physics Letters 90, nr 12 (19.03.2007): 121102. http://dx.doi.org/10.1063/1.2714193.

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Singh, Yogesh, Sanju Rani, Shashi, Rahul Parmar, Raman Kumari, Manoj Kumar, A. Bala Sairam, Mamta i V. N. Singh. "Sb2Se3 heterostructure solar cells: Techniques to improve efficiency". Solar Energy 249 (styczeń 2023): 174–82. http://dx.doi.org/10.1016/j.solener.2022.11.033.

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Bobkov, A. A., A. I. Maximov, V. A. Moshnikov, P. A. Somov i E. I. Terukov. "Zinc-oxide-based nanostructured materials for heterostructure solar cells". Semiconductors 49, nr 10 (październik 2015): 1357–60. http://dx.doi.org/10.1134/s1063782615100048.

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Rabinovich, O., D. Saranin, M. Orlova, S. Yurchuk, A. Panichkin, M. Konovalov, Y. Osipov, S. Didenko i P. Gostischev. "Heterostructure Improvements of the Solar Cells based on Perovskite". Procedia Manufacturing 37 (2019): 221–26. http://dx.doi.org/10.1016/j.promfg.2019.12.039.

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Thilagam, A. "Transition-metal dichalcogenide heterostructure solar cells: a numerical study". Journal of Mathematical Chemistry 55, nr 1 (22.07.2016): 50–64. http://dx.doi.org/10.1007/s10910-016-0669-9.

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Tucci, M., L. Serenelli, E. Salza, S. De Iuliis, L. J. Geerligs, D. Caputo, M. Ceccarelli i G. de Cesare. "Back contacted a-Si:H/c-Si heterostructure solar cells". Journal of Non-Crystalline Solids 354, nr 19-25 (maj 2008): 2386–91. http://dx.doi.org/10.1016/j.jnoncrysol.2007.09.023.

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Weiser, G., S. Kazitsyna-Baranovski i R. Stangl. "Band-edge electroluminescence of crystalline silicon heterostructure solar cells". Journal of Materials Science: Materials in Electronics 18, S1 (13.03.2007): 93–96. http://dx.doi.org/10.1007/s10854-007-9162-3.

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Kwok, H. L. "Field-enhanced charge flow in nanorod heterostructure solar cells". Applied Physics B 103, nr 2 (25.11.2010): 377–79. http://dx.doi.org/10.1007/s00340-010-4294-1.

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Milliron, Delia J., Ilan Gur i A. Paul Alivisatos. "Hybrid Organic–Nanocrystal Solar Cells". MRS Bulletin 30, nr 1 (styczeń 2005): 41–44. http://dx.doi.org/10.1557/mrs2005.8.

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AbstractRecent results have demonstrated that hybrid photovoltaic cells based on a blend of inorganic nanocrystals and polymers possess significant potential for low-cost, scalable solar power conversion. Colloidal semiconductor nanocrystals, like polymers, are solution processable and chemically synthesized, but possess the advantageous properties of inorganic semiconductors such as a broad spectral absorption range and high carrier mobilities. Significant advances in hybrid solar cells have followed the development of elongated nanocrystal rods and branched nanocrystals, which enable more effective charge transport. The incorporation of these larger nanostructures into polymers has required optimization of blend morphology using solvent mixtures. Future advances will rely on new nanocrystals, such as cadmium telluride tetrapods, that have the potential to enhance light absorption and further improve charge transport. Gains can also be made by incorporating application-specific organic components, including electroactive surfactants which control the physical and electronic interactions between nanocrystals and polymer.
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Namkoong, Gon, Gu Diefeng, Kurniawan Foe, S. Y. Bae, D. H. Kim, D. J. Seo, D. S. Lee, S. R. Jeon i Helmut Baumgart. "Hybrid Nitride-ZnO Solar Cells". ECS Transactions 41, nr 4 (16.12.2019): 185–89. http://dx.doi.org/10.1149/1.3628624.

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Huynh, W. U. "Hybrid Nanorod-Polymer Solar Cells". Science 295, nr 5564 (29.03.2002): 2425–27. http://dx.doi.org/10.1126/science.1069156.

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Mao, Yuliang, Congsheng Xu, Jianmei Yuan i Hongquan Zhao. "A two-dimensional GeSe/SnSe heterostructure for high performance thin-film solar cells". Journal of Materials Chemistry A 7, nr 18 (2019): 11265–71. http://dx.doi.org/10.1039/c9ta01219b.

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Based on first-principles calculations, we demonstrated that a GeSe/SnSe heterostructure has a type-II band alignment and a direct band gap. The predicted photoelectric conversion efficiency (PCE) for the GeSe/SnSe heterostructure reaches 21.47%.
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Ha, Su Ryong, Woo Hyeon Jeong, Yanliang Liu, Jae Teak Oh, Sung Yong Bae, Seungjin Lee, Jae Won Kim i in. "Molecular aggregation method for perovskite–fullerene bulk heterostructure solar cells". Journal of Materials Chemistry A 8, nr 3 (2020): 1326–34. http://dx.doi.org/10.1039/c9ta11854c.

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Fuhs, W., A. Laades, K. v. Maydell, R. Stangl, O. B. Gusev, E. I. Terukov, S. Kazitsyna-Baranovski i G. Weiser. "Band-edge electroluminescence from amorphous/crystalline silicon heterostructure solar cells". Journal of Non-Crystalline Solids 352, nr 9-20 (czerwiec 2006): 1884–87. http://dx.doi.org/10.1016/j.jnoncrysol.2005.10.051.

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Zhang, Chun-Fang, Chuan-Lu Yang, Mei-Shan Wang i Xiao-Guang Ma. "Z-Scheme photocatalytic solar-energy-to-hydrogen conversion driven by the HfS2/SiSe heterostructure". Journal of Materials Chemistry C 10, nr 14 (2022): 5474–81. http://dx.doi.org/10.1039/d1tc05781b.

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The feasibility and efficiency of photocatalytic solar-energy-to-hydrogen conversion via a direct Z-scheme driven by a HfS2/SiSe heterostructure are investigated by employing first-principles hybrid functional theory.
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Wang, Ryan T., i Gu Xu. "Organic Inorganic Hybrid Perovskite Solar Cells". Crystals 11, nr 10 (27.09.2021): 1171. http://dx.doi.org/10.3390/cryst11101171.

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McGehee, Michael D. "Nanostructured Organic–Inorganic Hybrid Solar Cells". MRS Bulletin 34, nr 2 (luty 2009): 95–100. http://dx.doi.org/10.1557/mrs2009.27.

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AbstractWhen light is absorbed in organic semiconductors, bound electron–hole pairs known as excitons are generated. The electrons and holes separate from each other at an interface between two semiconductors by electron transfer. It is advantageous to form well-ordered nanostructures so that all of the excitons can reach the interface between the two semiconductors and all of the charge carriers have a pathway to the appropriate electrode. This article discusses charge and exciton transport in organic semiconductors, as well as the opportunities for making highly efficient solar cells and for using carbon nanotubes to replace metal oxide electrodes.
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Li, Shao-Sian, i Chun-Wei Chen. "Polymer–metal-oxide hybrid solar cells". Journal of Materials Chemistry A 1, nr 36 (2013): 10574. http://dx.doi.org/10.1039/c3ta11998j.

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Hu, Yinghong, Johannes Schlipf, Michael Wussler, Michiel L. Petrus, Wolfram Jaegermann, Thomas Bein, Peter Müller-Buschbaum i Pablo Docampo. "Hybrid Perovskite/Perovskite Heterojunction Solar Cells". ACS Nano 10, nr 6 (3.06.2016): 5999–6007. http://dx.doi.org/10.1021/acsnano.6b01535.

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Günes, Serap, Karolina P. Fritz, Helmut Neugebauer, Niyazi Serdar Sariciftci, Sandeep Kumar i Gregory D. Scholes. "Hybrid solar cells using PbS nanoparticles". Solar Energy Materials and Solar Cells 91, nr 5 (marzec 2007): 420–23. http://dx.doi.org/10.1016/j.solmat.2006.10.016.

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Yoshida, Tsukasa, Matthew S. White, Gregor Trimmel i Philipp Stadler. "Solution-based emerging hybrid solar cells". Monatshefte für Chemie - Chemical Monthly 148, nr 5 (1.04.2017): 793–94. http://dx.doi.org/10.1007/s00706-017-1974-0.

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Jotterand, Stéphane A., i Marc Jobin. "Characterization of P3HT:PCBM:CdSe Hybrid Solar Cells". Energy Procedia 31 (2012): 117–23. http://dx.doi.org/10.1016/j.egypro.2012.11.173.

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Jeong, Sangmoo, Erik C. Garnett, Shuang Wang, Zongfu Yu, Shanhui Fan, Mark L. Brongersma, Michael D. McGehee i Yi Cui. "Hybrid Silicon Nanocone–Polymer Solar Cells". Nano Letters 12, nr 6 (3.05.2012): 2971–76. http://dx.doi.org/10.1021/nl300713x.

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Li, Shuxin, Zhibin Pei, Fei Zhou, Ying Liu, Haibo Hu, Shulin Ji i Changhui Ye. "Flexible Si/PEDOT:PSS hybrid solar cells". Nano Research 8, nr 10 (6.08.2015): 3141–49. http://dx.doi.org/10.1007/s12274-015-0814-y.

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Weickert, Jonas, Ricky B. Dunbar, Holger C. Hesse, Wolfgang Wiedemann i Lukas Schmidt-Mende. "Nanostructured Organic and Hybrid Solar Cells". Advanced Materials 23, nr 16 (15.02.2011): 1810–28. http://dx.doi.org/10.1002/adma.201003991.

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Малевская, А. В., Ю. М. Задиранов, А. А. Блохин i В. М. Андреев. "Исследование формирования антиотражающего покрытия каскадных солнечных элементов". Письма в журнал технической физики 45, nr 20 (2019): 15. http://dx.doi.org/10.21883/pjtf.2019.20.48386.17916.

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Investigations of antireflection coating creating for multijunction solar cells based on AIIIBV heterostructures have been carried out. Investigated were modes of treatment of a heterostructure surface with application of plasma-chemical, liquid chemical and ion-beam etching methods. Technology for creating antireflection coating based on ТiOx/SiO2 layers was developed. Improvement of parameters of coating adhesion to the heterostructure surface and reduction of the reflection coefficient in multijunction solar cells were achieved.
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