Search results for: semiconductors

• Graphitic carbon nitride nanosheets decorated with HAp@Bi2S3 core–shell nanorods: Dual S-scheme 1D/2D heterojunction for environmental and hydrogen production solutions

  Publication

  • M. Chahkandi
  • M. Zargazi
  • K. B. Ghiasabadi
  • J. S. Chung
  • M. Khodadadiyazdi
  • M. Saeb
  • M. Baghayeri

  - CHEMICAL ENGINEERING JOURNAL - Year 2024

  By combining different semiconductors, scientists have developed innovative materials capable of converting solar energy into useful forms of energy or driving chemical reactions that clean up pollutants. These materials offer a promising path to combat global environmental and energy challenges. In this study, HAp@Bi2S3 core–shell structures were synthesized using a facile microemulsion technique, and then loaded onto graphitic...

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• Shape-controllable synthesis of GdVO4 photocatalysts and their tunable properties in photocatalytic hydrogen generation

  Publication

  • P. Mazierski
  • J. Sowik
  • M. Miodyńska
  • G. Trykowski
  • A. Mikołajczyk
  • T. Klimczuk
  • W. Lisowski
  • J. Nadolna
  • A. Zaleska-Medynska

  - DALTON TRANSACTIONS - Year 2019

  Novel visible light responsive materials for water splitting are essential for the efficient conversion of solar energy into hydrogen bond energy. Among other semiconductors, gadolinium orthovanadate has appropriate conduction and valence band edges positioned to split water molecules and a narrow band gap that allows the use of visible light for hydrogen generation. Thus, we present here that hydrogen evolution under visible light...

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• Scheelite-Type Wide-Bandgap ABO4 Compounds (A = Ca, Sr, and Ba; B = Mo and W) as Potential Photocatalysts for Water Treatment

  Publication

  • M. Kowalkińska
  • P. Głuchowski
  • T. Swebocki
  • T. Ossowski
  • A. Ostrowski
  • W. Bednarski
  • J. Karczewski
  • A. Zielińska-Jurek

  - Journal of Physical Chemistry C - Year 2021

  In the present study, alkaline-earth metal scheelite-type compounds ABO4 (A = Ca, Sr, Ba, B = Mo, W) synthesized by a hydrothermal method were systematically studied. The as-obtained photocatalysts were characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM), Brunauer-Emmett-Teller surface area analysis (BET), UV–Vis diffuse reflectance spectroscopy (DR/UV-Vis), photoluminescence, and thermoluminescence (TL)...

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• On the mechanism of photocatalytic reactions on CuxO@TiO2 core–shell photocatalysts

  Publication

  • K. Wang
  • Z. Bielan
  • M. Endo-Kimura
  • M. Janczarek
  • D. Zhang
  • D. Kowalski
  • A. Zielińska-Jurek
  • A. Markowska-Szczupak
  • B. Ohtani
  • E. Kowalska

  - Journal of Materials Chemistry A - Year 2021

  Titania (titanium(IV) oxide) is a highly active, stable, cheap and abundant photocatalyst, and is thus commonly applied in various environmental applications. However, two main shortcomings of titania, i.e., charge carrier recombination and inactivity under visible-light (vis) irradiation, should be overcome for widespread commercialization. Accordingly, titania has been doped, surface modified and coupled with various ions/compounds,...

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• Robert Bogdanowicz dr hab. inż.

  People

  Department of Metrology and Optoelectronics

  Robert Bogdanowicz received his Ph.D. degree with honours in Electronics from the Gdansk University of Technology. He worked as a post-doc researcher in Ernst-Moritz-Arndt-Universität Greifswald Institut für Physik. He has initiated optical emission imaging of muti-magnetron pulsed plasma and contributed to the development of antibacterial implant coatings deposited by high-power impulse magnetron sputtering. He moved back to...

• Modelling and analysis of medium frequency transformers for power converters

  Publication

  • P. Dworakowski

  - Year 2020

  The evolutions in power systems and electric vehicles, related to the economic opportunities and the environmental issues, bring the need of high power galvanically isolated DC-DC converter. The medium frequency transformer (MFT) is one of its key components, enabled by the increasing switching frequency of modern power semiconductors like silicon carbide transistors or diodes. The increased operating frequency offers small...

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• Photosensitization of TiO2 and SnO2 by Artificial Self-Assembling Mimics of the Natural Chlorosomal Bacteriochlorophylls

  Publication

  • A. Huijser
  • P. L. Marek
  • T. J. Savenije
  • L. D. Siebbeles
  • T. Scherer
  • R. Hauschild
  • J. Szmytkowski
  • H. Kalt
  • H. Hahn
  • T. S. Balaban

  - Journal of Physical Chemistry C - Year 2007

  Of all known photosynthetic organisms, the green sulfur bacteria are able to survive under the lowest illumination conditions due to highly efficient photon management and exciton transport enabled by their special organelles, the chlorosomes, which consist mainly of self-assembled bacteriochlorophyll c, d, or e molecules. A challenging task is to mimic the principle of self-assembling chromophores in artificial light-harvesting...

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• Marta Dorota Kowalkińska mgr inż.

  People

• Analysis of higher recombination orders in organic bulk heterojunction solar cells

  Publication

  • J. Szmytkowski

  - Year 2014

  Recently, it has been experimentally demonstrated that an order of nongeminate recombination exceeds two in some types of organic bulk heterojunction donor-acceptor structures. This result is different than for the case of bimolecular recombination described by Langevin theory. Although several theoretical explanations of this effect have been presented, the origin of higher recombination orders is still questionable. In this work,...

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• High order of nongeminate recombination in organic bulk heterojunction solar cells

  Publication

  • J. Szmytkowski

  - SEMICONDUCTOR SCIENCE AND TECHNOLOGY - Year 2014

  We analyze high order of nongeminate recombination in organic donor–acceptor bulk heterojunction solar cells. The model of recombination where an exciton annihilates on an electron–hole Langevin bound pair near donor–acceptor interface has been applied in our studies. We obtained satisfactory agreement between experimental results and theoretical calculations for the concentration dependences of several parameters characterizing...

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• Influence of dipoles on the recombination in organic photovoltaic devices

  Publication

  • J. Szmytkowski

  - Year 2014

  Although organic compounds are promising materials to use them in photovoltaic devices, the efficiencies of organic solar cells are still lower in comparison to inorganic photocells. The recombination of charge carriers leads to the loss of photocurrent, therefore a detailed theoretical description of this process is required. In the present work, an influence of interface dipoles on the recombination process is discussed. We show...

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• The effect of ionic liquids on the surface and photocatalytic properties of semiconducting materials

  Publication

  • A. Pancielejko
  • M. Kroczewska-Gnatowska
  • P. Mazierski
  • J. Łuczak
  • A. Zaleska-Medynska

  - CHEMICAL ENGINEERING JOURNAL - Year 2024

  Semiconductor-mediated photocatalysis represents an environmentally friendly technology that could be used for the degradation of different pollutants in the gas and aqueous phases, for hydrogen generation, and for CO2-to-valuable product transformation reactions. Therefore, it is extremely important to accurately design a photocatalyst with the relevant features. In recent years, ionic liquids have often been employed as reagents...

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• Low-frequency noise in ZrS3 van der Waals semiconductor nanoribbons

  Publication

  • A. Rehman
  • G. Cywiński
  • W. Knap
  • J. Smulko
  • A. Balandin
  • S. Rumyantsev

  - APPLIED PHYSICS LETTERS - Year 2023

  We report the results of the investigation of low-frequency electronic noise in ZrS3 van der Waals semiconductor nanoribbons. The test structures were of the back-gated field-effect-transistor type with a normally off n-channel and an on-to-off ratio of up to four orders of magnitude. The current–voltage transfer characteristics revealed significant hysteresis owing to the presence of deep levels. The noise in ZrS3 nanoribbons...

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• SCOTT Secure COnnected Trustable Things

  Projects

  Project manager: dr hab. inż. Łukasz Kulas   Financial Program Name: HORYZONT 2020

  Project realized in Department of Microwave and Antenna Engineering according to 737422 agreement from 2017-05-18

• DEWI Dependable Embedded Wireless Infrastructure

  Projects

  Project manager: dr hab. inż. Łukasz Kulas   Financial Program Name: ARTEMIS

  Project realized in Department of Microwave and Antenna Engineering according to 621353 agreement from 2014-10-22

• InSecTT Intelligent Secure Trustable Things

  Projects

  Project manager: dr hab. inż. Łukasz Kulas   Financial Program Name: HORYZONT 2020

  Project realized in Department of Microwave and Antenna Engineering according to 876038 agreement from 2020-05-20

• ENABLE-S3 European Initiative to Enable Validation for Highly Automated Safe and Secure Systems

  Projects

  Project manager: dr hab. inż. Łukasz Kulas   Financial Program Name: HORYZONT 2020

  Project realized in Department of Microwave and Antenna Engineering according to 692455 agreement from 2016-05-11

• SECREDAS Cyber Security for Cross Domain Reliable Dependable Automated Systems

  Projects

  Project manager: dr hab. inż. Krzysztof Nyka   Financial Program Name: HORYZONT 2020

  Project realized in Department of Microwave and Antenna Engineering according to 783119 — SECREDAS agreement from 2018-05-18

• Michał Piotr Piłat mgr inż.

  People

  Institute of Physics and Applied Computer Science

• AFarCloud Aggregate Farming in the Cloud

  Projects

  Project manager: dr hab. inż. Łukasz Kulas   Financial Program Name: HORYZONT 2020

  Project realized in Department of Microwave and Antenna Engineering according to 783221 — AFarCloud agreement from 2018-05-17

• AIMS5.0 Artificial Intelligence in Manufacturing leading to Sustainability and Industry5.0

  Projects

  Project manager: dr hab. inż. Łukasz Kulas   Financial Program Name: Horyzont Europa - KDT JU - KE

  Project realized in Department of Microwave and Antenna Engineering

• AIMS5.0 Artificial Intelligence in Manufacturing leading to Sustainability and Industry5.0

  Projects

  Project manager: dr hab. inż. Łukasz Kulas   Financial Program Name: Horyzont Europa - KDT JU – NCBiR

  Project realized in Department of Microwave and Antenna Engineering

• Productive 4.0 Electronics and ICT as enabler for digital industry and optimized supply chain management covering the entire product lifecycle

  Projects

  Project manager: dr hab. inż. Krzysztof Nyka   Financial Program Name: HORYZONT 2020

  Project realized in Department of Microwave and Antenna Engineering according to 737459 — PRODUCTIVE4.0 — H2020-ECSEL-2016-2-IA-two-stage agreement from 2017-05-15

• Laboratorium Syntezy Innowacyjnych Materiałów i Elementów

  Laboratories

  • Centrum Zaawansowanych Technologii

  Zespół specjalistycznych urządzeń pozwala dokonywać syntezy diamentu mikro- i nanokrystalicznego oraz diamentu domieszkowanego borem i azotem do zastosowań w optoelektronice oraz nanosensoryce. Domieszkowany borem nanodiament (BDD) jest obecnie najwydajniejszym materiałem półprzewodnikowym do zastosowania w wytwarzaniu biosensorów elektrochemicznych. Laboratorium może otrzymywać ciągłe cienkie polikrystaliczne, domieszkowane elektrody...