Search results for: TITANIA%20NANOTUBES

• Laser-Induced Graphitization of Polydopamine on Titania Nanotubes

  Publication

  • A. Olejnik
  • K. Polaczek
  • M. Szkodo
  • A. Stanisławska
  • J. Ryl
  • K. Siuzdak

  - ACS Applied Materials & Interfaces - Year 2023

  Since the discovery of laser-induced graphite/graphene, there has been a notable surge of scientific interest in advancing diverse methodologies for their synthesis and applications. This study focuses on the utilization of a pulsed Nd:YAG laser to achieve graphitization of polydopamine (PDA) deposited on the surface of titania nanotubes. The partial graphitization is corroborated through Raman and XPS spectroscopies and supported...

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• Are Titania Photocatalysts and Titanium Implants Safe? Review on the Toxicity of Titanium Compounds

  Publication

  • A. B. Markowska-Szczupak
  • M. Endo-Kimura
  • O. Paszkiewicz
  • E. Kowalska

  - Nanomaterials - Year 2020

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• Antibacterial performance of nanocrystallined titania confined in mesoporous silica nanotubes

  Publication

  • K. Cendrowski
  • M. Peruzynska
  • A. Markowska-Szczupak
  • X. Chen
  • A. Wajda
  • J. Lapczuk
  • M. Kurzawski
  • R. Kalenczuk
  • M. Drozdzik
  • E. Mijowska

  - BIOMEDICAL MICRODEVICES - Year 2014

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• Fabrication and properties of electrode material composed of ordered titania nanotubes and pEDOT:PSS

  Publication

  • K. Siuzdak
  • M. Sawczak
  • A. Lisowska-Oleksiak

  - SOLID STATE IONICS - Year 2015

  We report on the two-stage preparation method of electrode material composed of titania nanotubes and poly(3,4-ethylenedioxythiopene):poly(2-styrenesulphonate) conductive polymer (pEDOT:PSS). Initially, titania nanotube arrays were produced by the anodization process of Ti substrate. Next, the polymer was potentiostatically deposited onto the thermally annealed nanotube arrays from the electrolyte containing monomer and counter...

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• The interaction of the pulsed laser irradiation with titania nanotubes - Theoretical studies on the thermal effect

  Publication

  • P. Kupracz
  • K. Grochowska
  • J. Wawrzyniak
  • K. Siuzdak

  - INTERNATIONAL JOURNAL OF THERMAL SCIENCES - Year 2021

  This paper reports temperature dispersion simulations of titania nanotubes irradiated by the 355 nm, pulsed, nanosecond laser. The modelling with the use of Finite Elements Method concerns titania nanotubes of the length and the wall thickness in the range of 0.5–2 μm and 5–20 nm, respectively. The uniqueness of the morphology was preserved by ensuring the wall thickness variation along the height of the tube, which was determined...

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• The new method of ZnIn2S4 synthesis on the titania nanotubes substrate with enhanced stability and photoelectrochemical performance

  Publication

  • D. Roda
  • K. Trzciński
  • M. S. Łapiński
  • M. Gazda
  • M. Sawczak
  • A. Nowak
  • M. Szkoda

  - Scientific Reports - Year 2023

  The new method of ZnIn2S4 synthesis on the titania nanotubes substrate with enhanced stability and photoelectrochemical performance

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• Novel nitrogen precursors for electrochemically driven doping of titania nanotubes exhibiting enhanced photoactivity

  Publication

  • K. Siuzdak
  • M. Szkoda
  • M. Sawczak
  • A. Lisowska-Oleksiak

  - NEW JOURNAL OF CHEMISTRY - Year 2015

  Nitrogen doped titania nanotubes were successfully sensitized by electrochemical method, i.e. as-anodized titania was immersed in different amine (diethyleneamine-DETA, triethyleneamine-TEA, ethylenediamine-EDA) and urea (U) solution and a constant potential was applied. The highly ordered morphology of fabricated N-TiO2 was investigated by using scanning electron microscopy. Spectroscopic techniques, i.e. UV-Vis spectroscopy,...

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• Optimization of electrochemical doping approach resulting in highly photoactive iodine-doped titania nanotubes

  Publication

  • M. Szkoda
  • K. Siuzdak
  • A. Lisowska-Oleksiak

  - JOURNAL OF SOLID STATE ELECTROCHEMISTRY - Year 2016

  The paper focuses on the optimization procedure concerning the synthesis method resulting in highly ordered titania nanotubes doped with iodine atoms. The doping process was based on the electrochemical treatment of a titania nanotube layer immersed in a potassium iodide (KI) solution acting as an iodine precursor. A number of endeavors were undertaken in order to optimize the doping conditions. Electrolyte concentration, reaction...

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• The geometry of free-standing titania nanotubes as a critical factor controlling their optical and photoelectrochemical performance

  Publication

  • J. Wawrzyniak
  • K. Grochowska
  • J. Karczewski
  • P. Kupracz
  • J. Ryl
  • A. Dołęga
  • S. Katarzyna

  - SURFACE & COATINGS TECHNOLOGY - Year 2020

  Titanium dioxide nanotubes are regarded as one of the most important functional materials and due to their unique electronic properties, chemical stability and photocorrosion resistance, they find applications in, for example, highly efficient photocatalysis or perovskite solar cells. Nevertheless, modification of TiO2 nanotubes is required to overcome their main drawback, i.e. large energy bandgap (>3.2 eV) limiting their ability...

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• Optimization of boron-doping process of titania nanotubes via electrochemical method toward enhanced photoactivity

  Publication

  • M. Szkoda
  • A. Lisowska-Oleksiak
  • K. Siuzdak

  - JOURNAL OF SOLID STATE ELECTROCHEMISTRY - Year 2016

  In this work, we were focused on the development of the electrochemical approach resulting in a stable boron doping of titania nanotubes. The doping procedure concerns anodic polarization of as-anodized titania in a H3BO3 solution acting as n boron precursor. The series of attempts were taken in order to elaborate the most beneficial doping conditions. The parameters of electrochemical doping allowing to obtain boron-doped titania...

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