Iron Oxide and Iron Sulfide Films Prepared for Dye-Sensitized Solar Cells; Materials; Vol. 13, iss. 8

Iron Oxide and Iron Sulfide Films Prepared for Dye-Sensitized Solar Cells; Materials; Vol. 13, iss. 8

Бібліографічні деталі
Parent link:	Materials Vol. 13, iss. 8.— 2020.— [1797, 10 p.]
Інші автори:	Tuharin K. Kostyantyn, Turek Z. Zdenek, Zanaska M. Michal, Kudrna P. Pavel, Tichy M. Milan
Резюме:	Title screen In this paper, the prospects of iron oxide films and their sulfidation for dye-sensitized solar cells (DSSC) are reviewed. Iron oxide thin films were prepared by hollow cathode plasma jet (HCPJ) sputtering, with an admixture of oxygen in the argon working gas and with an iron nozzle as the sputtering target. The discharge was powered by a constant current source in continuous mode and by a constant voltage source in pulsed mode. Plasma composition was measured by an energy-resolved mass spectrometer. Moreover, secondary electron microscopy (SEM), energy-dispersive X-ray spectroscopy (EDX), absorption and Raman spectra of the films are presented. Strong correlation between the color of the iron oxide film and its phase composition was revealed. Iron oxide films were sulfided at 350 °C. A relatively clean pyrite phase was obtained from the magnetite, while the marcasite with admixture of the pyrite phase was obtained from the hematite. Low influence of sulfidation on the films’ microstructure was demonstrated.
Мова:	Англійська
Опубліковано:	2020
Предмети:	электронный ресурс труды учёных ТПУ hollow cathode plasma jet iron oxide iron sulfide absorption spectroscopy dye-sensitized solar cell плазменная струя оксид железа абсорбционная спектроскопия солнечные элементы
Онлайн доступ:	https://doi.org/10.3390/ma13081797
Формат:	Електронний ресурс Частина з книги
KOHA link:	https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=664995

Схожі ресурси

Study of Electric and Magnetic Properties of Iron-Modified MFI Zeolite Prepared by a Mechanochemical Method; Materials; Vol. 15, iss. 22
Опубліковано: (2022)

Generation of Beam-Plasma Formation in a Cylindrical Extended Hollow Grid Anode; Energy Fluxes and Radiation Effects (EFRE-2020 online)
Опубліковано: (2020)

Multi-Pulse Operation of Coaxial Magnetic Plasma Accelerator for Dynamic Synthesis of Iron Oxide Powder; Russian Physics Journal; Vol. 62, iss. 6
Опубліковано: (2019)

Studying the Photocatalytic Activity of Iron Oxides Synthesized by Plasma Dynamic Method; Energy Fluxes and Radiation Effects (EFRE-2020 online)
Опубліковано: (2020)

The influence of the electron beam treatment on aluminum and iron nanopowders; Бутаковские чтения
за авторством: Badamasi N. M.
Опубліковано: (2023)

Modelling of the diffusion saturation of metals and alloys in the glow discharge plasma inside a hollow cathode; Energy Fluxes and Radiation Effects (EFRE-2016)
за авторством: Bao Hung Nguyen
Опубліковано: (2016)

Humics-Functionalized Iron(III) Oxyhydroxides as Promising Nanoferrotherapeutics: Synthesis, Characterization, and Efficacy in Iron Delivery; Nanomaterials; Vol. 15, iss. 18
Опубліковано: (2025)

Production of Iron Nanopowders by the Electric Explosion of Wire; Advanced Materials Research; Vol. 1097
за авторством: Pustovalov A. V. Aleksey Vitalievich
Опубліковано: (2015)

Plasmodynamic synthesis of ultradispersed iron oxides; Russian Physics Journal; Vol. 56, iss. 2
Опубліковано: (2013)

Формирование протяженных пучково-плазменных образований в полом катоде с распылителями металлической плазмы; Известия Томского политехнического университета [Известия ТПУ]. Промышленная кибернетика; Т. 3, № 4
Опубліковано: (2025)

Separation of silicon-iron-copper-nickel concentrate by fluorammonium method into individual oxides; Bulletin of the Tomsk Polytechnic University; Vol. 311, № 3
за авторством: Dyachenko A. N. Alexander Nikolaevich
Опубліковано: (2007)

Low-energy high-current plasma immersion implantation of nitrogen ions in plasma of non-self-sustained arc discharge with thermionic and hollow cathodes; Surface and Coatings Technology; Vol. 340
Опубліковано: (2018)

The oxidation kinetics study of ultrafine iron powders by thermogravimetric analysis; Journal of Thermal Analysis and Calorimetry; Vol. 115, iss. 2
Опубліковано: (2014)

Plasma Dynamic Synthesis of Metal Oxides in a Carbon Dioxide Medium in the Ti–O and Fe–O Systems; Inorganic Materials; Vol. 14, No. 3
Опубліковано: (2023)

Correction of iron deficiency anemia by Fe(III) hydroxocomplexes stabilized with humic ligands in rat; Humic substances and ecoadaptive technologies (HIT-2021)
Опубліковано: (2021)

Intensification of microwave pyrolysis of hard coal by adding microwave absorbers based on iron and copper; Journal of Analytical and Applied Pyrolysis; Vol. 191
Опубліковано: (2025)

Determination of Au, Pb, Ni and Co in Mineral Raw Materials by Atomic Absorption Spectroscopy with Graphite Furnace; Procedia Chemistry; Vol. 10 : Chemistry and Chemical Engineering in XXI century
Опубліковано: (2014)

A Comprehensive Study of Synthesis and Analysis of Anisotropic Iron Oxide and Oxyhydroxide Nanoparticles; Nanomaterials; Vol. 12, iss. 23
Опубліковано: (2022)

Cleaning of steel surface from scale by compression plasma flows; Surface and Coatings Technology; Vol. 255
Опубліковано: (2014)

Characterization of Naturally Aged Iron Nanopowder Produced by Electrical Explosion of Wires; Metals and Materials International; Vol. XX
за авторством: Nazarenko O. B. Olga Bronislavovna
Опубліковано: (2019)

Sacrificial Zinc Oxide Strategy-Enhanced Mesoporosity in MIL-53-Derived Iron–Carbon Composite for Methylene Blue Adsorption; Inorganics; Vol. 10, iss. 5
Опубліковано: (2022)

A study of iron carbonates and clay minerals for understanding the origin of marine ooidal ironstone deposits; Marine and Petroleum Geology; Vol. 142
Опубліковано: (2022)

Динамика содержания растворенных форм железа в водах притоков Телецкого озера и ее анализ в связи с показателями солнечной активности; Известия Томского политехнического университета [Известия ТПУ]. Инжиниринг георесурсов; Т. 334, № 11
Опубліковано: (2023)

Nodularity Control of Spheroid Ductile Cast Iron by Rayleigh Backscattering; Journal of Nondestructive Evaluation; Vol. 39, iss.1
Опубліковано: (2020)

Iron-free electron synchrotron with weak focusing; Bulletin of the Tomsk Polytechnic University; Vol. 310, № 1
за авторством: Moskalev V. A. Vladilen Aleksandrovich
Опубліковано: (2007)

Activation of the Process of Layer Combustion of Coal with Iron Nitrate and Waste of Metal Rolling Production; Solid Fuel Chemistry; Vol. 58, iss. 3
за авторством: Shuataev M. K. Merlan Kalkamanovich
Опубліковано: (2024)

Activation of the Process of Layer Combustion of Coal with Iron Nitrate and Waste of Metal Rolling Production; Solid Fuel Chemistry; Vol. 58, iss. 3
за авторством: Shuataev M. K. Merlan Kalkamanovich
Опубліковано: (2024)

Моделирование сильноточного несамостоятельного тлеющего разряда с полым катодом при низком давлении; Известия Томского политехнического университета [Известия ТПУ]. Промышленная кибернетика; Т. 1, № 2
за авторством: Коваль Т. В. Тамара Васильевна
Опубліковано: (2023)

Вещественный состав медных шлаков Алмалыкского медеплавильного завода (Узбекистан); Известия Томского политехнического университета [Известия ТПУ]. Инжиниринг георесурсов; Т. 335, № 4
Опубліковано: (2024)

An Analysis of Vibrations and Rotations in the First Hydrogen Sulfide Hexade: the 4ν2 H322S Band; Optics and Spectroscopy; Vol. 129, iss. 1
за авторством: Zhang Fangce
Опубліковано: (2021)

Fluoride Technology for Obtaining Magnetic Materials Based on Nd-Fe-B. Kinetics of Fluorination Processes of Neodymium and Iron Oxides; Procedia Chemistry; Vol. 11 : 1st International Symposium on Inorganic Fluorides: Chemistry and Technology, ISIF 2014, Tomsk, Russia
Опубліковано: (2014)

Method of removal of colloid iron from groundwater of Western Siberia region by using of carbon dioxide; The 7th International Forum on Strategic Technology (IFOST-2012), September 18-21, 2012, Tomsk
Опубліковано: (2012)

Supporting data and methods for the characterization of iron oxide nanoparticles conjugated with pH-(low)-insertion peptide, testing their cytotoxicity and analyses of biodistribution in SCID mice bearing MDA-MB231 tumor; Data in Brief; Vol. 29
Опубліковано: (2020)

Synthesis of multicomponent nanocomposites containing filamentary carbon nanostructures; Fullerenes, Nanotubes and Carbon Nanostructures; Vol. 28, iss. 6
Опубліковано: (2020)

Effect of Chemically Modified Carbon-Coated Iron Nanoparticles on the Structure of Human Atherosclerotic Plaques Ex Vivo and on Adipose Tissue in Chronic Experiment In Vivo; International Journal of Molecular Sciences; Vol. 23, iss. 15
Опубліковано: (2022)

Качественные характеристики и причины окраски аподоломитового нефрита Воймаканского месторождения, Средне-Витимская горная страна; Известия Томского политехнического университета [Известия ТПУ]. Инжиниринг георесурсов; Т. 335, № 12
Опубліковано: (2024)

Method of restoring pivot connections cast iron bushings of heat engine with external heat supply; Metalurgija; Vol. 60, No. 3-4
Опубліковано: (2021)

Influence of Ultrafine Particles on Structure, Mechanical Properties, and Strengthening of Ductile Cast Iron; Metals; Vol. 8, iss. 7
Опубліковано: (2018)

Effect of iron and boron ultrafine powders on combustion of aluminized solid propellants; Combustion and Flame; Vol. 178
Опубліковано: (2017)

Intensification of the Output of Chemical Elements from Ore in Conditions Gliding Discharge; 20th International Symposium on High-Current Electronics (ISHCE)
Опубліковано: (2018)