Your search keyword '"Vladimir Ciobanu"' showing total 27 results

1. Enhanced solar light photocatalytic degradation of tetracycline by aero-GaN and ZnO microtetrapods functionalized with noble metal nanodots

Author

Vladimir Ciobanu, Tatiana Galatonova, Pavel Urbanek, Tudor Braniste, Florica Doroftei, Milan Masar, Pavol Suly, Veaceslav Ursaki, Barbora Hanulikova, Tomas Sopik, Vladimir Sedlarik, Ivo Kuritka, and Ion Tiginyanu

Subjects

Photocatalysis, Tetracycline, GaN, ZnO, Metal nanodots, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

The escalating global problem of antibiotic contamination in wastewater demands innovative and sustainable remediation technologies. This paper presents a highly efficient photocatalytic material for water purification: a three-dimensional ultra-porous structure of interconnected GaN hollow microtetrapods (aero-GaN), its performance being further enhanced by noble metal nanodot functionalization. This novel aero-nanomaterial achieves more than 90 % of tetracycline degradation within 120 min under UV and solar irradiation, demonstrating its effectiveness in both static and dynamic flow conditions, with the potential for reuse and recyclability. The higher surface area and chemical stability of the 3D aero-GaN architecture, compared to analogous ZnO structures, establish its significant potential for advanced water treatment applications and filter technologies.

Published

2024

2. Aero-ZnS prepared by physical vapor transport on three-dimensional networks of sacrificial ZnO microtetrapods

Author

Veaceslav Ursaki, Tudor Braniste, Victor Zalamai, Emil Rusu, Vladimir Ciobanu, Vadim Morari, Daniel Podgornii, Pier Carlo Ricci, Rainer Adelung, and Ion Tiginyanu

Subjects

aeromaterial, crystallographic structure, luminescence, physical vapor transport, scanning electron microscopy (sem), x-ray diffraction (xrd), Technology, Chemical technology, TP1-1185, Science, Physics, QC1-999

Abstract

Aeromaterials represent a class of increasingly attractive materials for various applications. Among them, aero-ZnS has been produced by hydride vapor phase epitaxy on sacrificial ZnO templates consisting of networks of microtetrapods and has been proposed for microfluidic applications. In this paper, a cost-effective technological approach is proposed for the fabrication of aero-ZnS by using physical vapor transport with Sn2S3 crystals and networks of ZnO microtetrapods as precursors. The morphology of the produced material is investigated by scanning electron microscopy (SEM), while its crystalline and optical qualities are assessed by X-ray diffraction (XRD) analysis and photoluminescence (PL) spectroscopy, respectively. We demonstrate possibilities for controlling the composition and the crystallographic phase content of the prepared aerogels by the duration of the technological procedure. A scheme of deep energy levels and electronic transitions in the ZnS skeleton of the aeromaterial was deduced from the PL analysis, suggesting that the produced aerogel is a potential candidate for photocatalytic and sensor applications.

Published

2024

3. The effectiveness of the tissue engineering in the obtaining of the biological materials from the extracellular matrix

Author

Olga Macagonova, Adrian Cociug, Tatiana Taralunga, Vladimir Ciobanu, Tudor Braniste, and Viorel Nacu

Subjects

porcine acellular dermis, collagen sponge, biomaterials, tissue engineering, Medicine

Abstract

Background: The present work describes the possibility of manufacturing biomaterials from the extracellular matrix for the treatment of the skin wounds. Biomedical collagen-based materials are clinically effective. Collagen is the most abundant and major component of the skin. Porcine collagen is almost similar to the human collagen, it is not immunogenic when used for the therapeutic purposes. Biomaterials can be obtained from the decellularized dermis, being a matrix rich in the collagen and glycoproteins. Material and methods: 3 parallel groups of biomaterials were established and the average value was calculated. To ensure the effectiveness of the decellularization process, the decellularized porcine dermis was compared with the intact sample using qualitative and quantitative criteria. Results: Histologically, the decellularized tissues revealed the presence of fewer cells. As a result, were removed approximately 80.5% of the genetic material from porcine dermal structures, demonstrated by the spectrophotometric quantification of deoxyribonucleic acid. In vitro graft degradation study in 0.01 M phosphate buffer pH 7.4 combined with collagenase, demonstrated a significant (p < 0.05) loss of collagen sponge mass by 100% over one hour in the group II compared to the decellularized dermis in group I which decreased in the weight by 91.3% during 35 hours. Conclusions: Acellular biomaterials are immunologically inert, have hydrophilic and biodegradable properties, thus they can play a key role in the wound care, exerting the transfer of the bioactive molecules and drugs directly into the wound.

Published

2023

4. Protein-corona formation on aluminum doped zinc oxide and gallium nitride nanoparticles

Author

Vladimir Ciobanu, Francesco Roncari, Giacomo Ceccone, Tudor Braniste, Jessica Ponti, Alessia Bogni, Giuditta Guerrini, Domenico Cassano, Pascal Colpo, and Ion Tiginyanu

Subjects

Biotechnology, TP248.13-248.65

Abstract

The interaction of semiconductor nanoparticles with bio-molecules attracts increasing interest of researchers, considering the reactivity of nanoparticles and the possibility to control their properties remotely giving mechanical, thermal, or electrical stimulus to the surrounding bio-environment. This work reports on a systematic comparative study of the protein-corona formation on aluminum doped zinc oxide and gallium nitride nanoparticles. Bovine serum albumin was chosen as a protein model. Dynamic light scattering, transmission electron microscopy and X-ray photoelectron spectroscopy techniques have been used to demonstrate the formation of protein-corona as well as the stability of the colloidal suspension given by BSA, which also works as a surfactant. The protein adsorption on the NPs surface studied by Bradford Assay showed the dependence on the quantity of proteins adsorbed to the available sites on the NPs surface, thus the saturation was observed at ratio higher than 5:1 (NPs:Proteins) in case of ZnO, these correlating with DLS results. Moreover, the kinetics of the proteins showed a relatively fast adsorption on the NPs surface with a saturation curve after about 25 min. GaN NPs, however, showed a very small amount of proteins adsorbed on the surface, a change in the hydrodynamic size being not observable with DLS technique or differential centrifugal sedimentation. The Circular Dichroism analysis suggests a drastic structural change in the secondary structure of the BSA after attaching on the NPs surface. The ZnO nanoparticles adsorb a protein-corona, which does not protect them against dissolution, and in consequence, the material proved to be highly toxic for Human keratinocyte cell line (HaCaT) at concentration above 25 µg/mL. In contrast, the GaN nanoparticles which do not adsorb a protein-corona, show no toxicity signs for HaCaT cells at concentration as high as 50 µg/mL, exhibiting much lower concentration of ions leakage in the culture medium as compared to ZnO nanoparticles.

Published

2022

5. Aero-TiO2 Prepared on the Basis of Networks of ZnO Tetrapods

Author

Vladimir Ciobanu, Veaceslav V. Ursaki, Sebastian Lehmann, Tudor Braniste, Simion Raevschi, Victor V. Zalamai, Eduard V. Monaico, Pascal Colpo, Kornelius Nielsch, and Ion M. Tiginyanu

Subjects

aero-TiO2, atomic layer deposition, titania, anatase, rutile, spinel, Crystallography, QD901-999

Abstract

In this paper, new aeromaterials are proposed on the basis of titania thin films deposited using atomic layer deposition (ALD) on a sacrificial network of ZnO microtetrapods. The technology consists of two technological steps applied after ALD, namely, thermal treatment at different temperatures and etching of the sacrificial template. Two procedures are applied for etching, one of which is wet etching in a citric acid aqua solution, while the other one is etching in a hydride vapor phase epitaxy (HVPE) system with HCl and hydrogen chemicals. The morphology, composition, and crystal structure of the produced aeromaterials are investigated depending on the temperature of annealing and the sequence of the technological steps. The performed photoluminescence analysis suggests that the developed aeromaterials are potential candidates for photocatalytic applications.

Published

2022

6. Large-Sized Nanocrystalline Ultrathin β-Ga2O3 Membranes Fabricated by Surface Charge Lithography

Author

Vladimir Ciobanu, Giacomo Ceccone, Irina Jin, Tudor Braniste, Fei Ye, Francesco Fumagalli, Pascal Colpo, Joydeep Dutta, Jan Linnros, and Ion Tiginyanu

Subjects

β-Ga2O3, Surface Charge Lithography, ultrathin nanomembranes, phase transformation, Chemistry, QD1-999

Abstract

Large-sized 2D semiconductor materials have gained significant attention for their fascinating properties in various applications. In this work, we demonstrate the fabrication of nanoperforated ultrathin β-Ga2O3 membranes of a nanoscale thickness. The technological route includes the fabrication of GaN membranes using the Surface Charge Lithography (SCL) approach and subsequent thermal treatment in air at 900 °C in order to obtain β-Ga2O3 membranes. The as-grown GaN membranes were discovered to be completely transformed into β-Ga2O3, with the morphology evolving from a smooth topography to a nanoperforated surface consisting of nanograin structures. The oxidation mechanism of the membrane was investigated under different annealing conditions followed by XPS, AFM, Raman and TEM analyses.

Published

2022

7. Aero-Ga2O3 Nanomaterial Electromagnetically Transparent from Microwaves to Terahertz for Internet of Things Applications

Author

Tudor Braniste, Mircea Dragoman, Sergey Zhukov, Martino Aldrigo, Vladimir Ciobanu, Sergiu Iordanescu, Liudmila Alyabyeva, Francesco Fumagalli, Giacomo Ceccone, Simion Raevschi, Fabian Schütt, Rainer Adelung, Pascal Colpo, Boris Gorshunov, and Ion Tiginyanu

Subjects

aero-Ga2O3, ultra-porous nanomaterial, extremely low reflectivity, electromagnetically transparent nanomaterial, X-band and terahertz frequencies, Chemistry, QD1-999

Abstract

In this paper, fabrication of a new material is reported, the so-called Aero-Ga2O3 or Aerogallox, which represents an ultra-porous and ultra-lightweight three-dimensional architecture made from interconnected microtubes of gallium oxide with nanometer thin walls. The material is fabricated using epitaxial growth of an ultrathin layer of gallium nitride on zinc oxide microtetrapods followed by decomposition of sacrificial ZnO and oxidation of GaN which according to the results of X-ray diffraction (XRD) and X-ray photoemission spectroscopy (XPS) characterizations, is transformed gradually in β-Ga2O3 with almost stoichiometric composition. The investigations show that the developed ultra-porous Aerogallox exhibits extremely low reflectivity and high transmissivity in an ultrabroadband electromagnetic spectrum ranging from X-band (8–12 GHz) to several terahertz which opens possibilities for quite new applications of gallium oxide, previously not anticipated.

Published

2020

8. Versatile self-catalyzed growth of freestanding zinc blende/wurtzite InP nanowires on an aerographite substrate for single-nanowire light detection

Author

Irina Jin, Julian Strobel, Ulrich Schürmann, Vladimir Ciobanu, Veaceslav Ursaki, Leonid Gorceac, Boris Cinic, Cameliu Himcinschi, Rainer Adelung, Lorenz Kienle, and Ion Tiginyanu

Subjects

General Materials Science, Physical and Theoretical Chemistry, Condensed Matter Physics

Published

2023

9. GaN Ultrathin Membrane for SERS Detection of Rhodamine B

Author

Vladimir Ciobanu, I. Plesco, T. Braniste, G. Ceccone, P. Colpo, and I. Tiginyanu

Published

2022

10. Self-Propelled Aero-GaN Based Liquid Marbles Exhibiting Pulsed Rotation on the Water Surface

Author

Tudor Braniste, Vladimir Ciobanu, Nicola M. Pugno, Simion Raevschi, Ion Tiginyanu, Hidenori Mimura, Rainer Adelung, and Fabian Schütt

Subjects

Surface (mathematics), Technology, Microscopy, QC120-168.85, Materials science, aero-GaN, Communication, QH201-278.5, Rotation, Engineering (General). Civil engineering (General), TK1-9971, Descriptive and experimental mechanics, aerogalnite, Water lily, liquid marble, General Materials Science, Electrical engineering. Electronics. Nuclear engineering, Composite material, TA1-2040, pulsed rotation

Abstract

We report on self-propelled rotating liquid marbles fabricated using droplets of alcoholic solution encapsulated in hollow microtetrapods of GaN with hydrophilic free ends of their arms and hydrophobic lateral walls. Apart from stationary rotation, elongated-spheroid-like liquid marbles were found, for the first time, to exhibit pulsed rotation on water surfaces characterized by a threshold speed of rotation, which increased with the weight of the liquid marble while the frequency of pulses proved to decrease. To throw light upon the unusual behavior of the developed self-propelled liquid marbles, we propose a model which takes into account skimming of the liquid marbles over the water surface similar to that inherent to flying water lily beetle and the so-called helicopter effect, causing a liquid marble to rise above the level of the water surface when rotating.

Published

2021

11. Photocatalytic degradation of organic dyes using TiO2 nanotube arrays and aero-ZnO- ZnS under UV and visible light illumination

Author

Tudor Braniste, Joydeep Dutta, Ion Tiginyanu, Irina Plesco, and Vladimir Ciobanu

Subjects

chemistry.chemical_compound, Nanotube, Materials science, chemistry, Chemical engineering, Rutile, Titanium dioxide, Photocatalysis, chemistry.chemical_element, Zinc, Photodegradation, Zinc sulfide, Visible spectrum

Abstract

We report on the results of comparative study of the photocatalytic performances of the wide band gap semiconductor catalysts titania (TiO 2 ), zinc oxide (ZnO) and mixed phase of ZnO-ZnS (zinc sulfide). The mixed phase structures show better photodegradation properties under UV and visible light illumination compared to its analogous forms. Rutile phase TiO 2 nanotubes showed the highest catalytic activity, resulting in 70% decay of dye concentration within 85 min with visible light irradiation, while the rutile-anatase mixture of TiO 2 degrade 75% of the test contaminant within 10 min under UV illumination. Microparticles and assemblies of nanostructures used in the experiments can be recycled effectively and subsequently reused.

Published

2020

12. Aero-Ga

Author

Tudor, Braniste, Mircea, Dragoman, Sergey, Zhukov, Martino, Aldrigo, Vladimir, Ciobanu, Sergiu, Iordanescu, Liudmila, Alyabyeva, Francesco, Fumagalli, Giacomo, Ceccone, Simion, Raevschi, Fabian, Schütt, Rainer, Adelung, Pascal, Colpo, Boris, Gorshunov, and Ion, Tiginyanu

Subjects

aero-Ga2O3, Communication, ultra-porous nanomaterial, electromagnetically transparent nanomaterial, extremely low reflectivity, X-band and terahertz frequencies

Abstract

In this paper, fabrication of a new material is reported, the so-called Aero-Ga2O3 or Aerogallox, which represents an ultra-porous and ultra-lightweight three-dimensional architecture made from interconnected microtubes of gallium oxide with nanometer thin walls. The material is fabricated using epitaxial growth of an ultrathin layer of gallium nitride on zinc oxide microtetrapods followed by decomposition of sacrificial ZnO and oxidation of GaN which according to the results of X-ray diffraction (XRD) and X-ray photoemission spectroscopy (XPS) characterizations, is transformed gradually in β-Ga2O3 with almost stoichiometric composition. The investigations show that the developed ultra-porous Aerogallox exhibits extremely low reflectivity and high transmissivity in an ultrabroadband electromagnetic spectrum ranging from X-band (8–12 GHz) to several terahertz which opens possibilities for quite new applications of gallium oxide, previously not anticipated.

Published

2020

13. Highly Porous and Ultra-Lightweight Aero-Ga2O3: Enhancement of Photocatalytic Activity by Noble Metals

Author

Tudor Braniste, Rainer Adelung, Vladimir Ciobanu, Andrei Sarua, Irina Plesco, Simion Raevschi, Joydeep Dutta, Florian Rasch, Veaceslav Ursaki, and Ion Tiginyanu

Subjects

aeromaterial, Solid-state chemistry, Materials science, Annealing (metallurgy), Ga2O3, Nanotechnology, 02 engineering and technology, 010402 general chemistry, Epitaxy, lcsh:Technology, 01 natural sciences, Article, General Materials Science, lcsh:Microscopy, lcsh:QC120-168.85, lcsh:QH201-278.5, lcsh:T, metal-semiconductor photocatalyst, 021001 nanoscience & nanotechnology, methylene blue degradation, 0104 chemical sciences, lcsh:TA1-2040, Photocatalysis, Surface modification, lcsh:Descriptive and experimental mechanics, Chemical stability, lcsh:Electrical engineering. Electronics. Nuclear engineering, Nanodot, lcsh:Engineering (General). Civil engineering (General), 0210 nano-technology, lcsh:TK1-9971, photocatalysis, Visible spectrum

Abstract

A new type of photocatalyst is proposed on the basis of aero-β-Ga2O3, which is a material constructed from a network of interconnected tetrapods with arms in the form of microtubes with nanometric walls. The aero-Ga2O3 material is obtained by annealing of aero-GaN fabricated by epitaxial growth on ZnO microtetrapods. The hybrid structures composed of aero-Ga2O3 functionalized with Au or Pt nanodots were tested for the photocatalytic degradation of methylene blue dye under UV or visible light illumination. The functionalization of aero-Ga2O3 with noble metals results in the enhancement of the photocatalytic performances of bare material, reaching the performances inherent to ZnO while gaining the advantage of the increased chemical stability. The mechanisms of enhancement of the photocatalytic properties by activating aero-Ga2O3 with noble metals are discussed to elucidate their potential for environmental applications.

Published

2021

14. Aero-Ga2O3 Nanomaterial Electromagnetically Transparent from Microwaves to Terahertz for Internet of Things Applications

Author

Pascal Colpo, Rainer Adelung, S. N. Zhukov, Giacomo Ceccone, Sergiu Iordanescu, L. N. Alyabyeva, Simion Raevschi, Fabian Schütt, Francesco Fumagalli, Tudor Braniste, Mircea Dragoman, Vladimir Ciobanu, Martino Aldrigo, Ion Tiginyanu, and Boris Gorshunov

Subjects

Materials science, Fabrication, Photoemission spectroscopy, Terahertz radiation, General Chemical Engineering, Gallium nitride, electromagnetically transparent nanomaterial, 02 engineering and technology, extremely low reflectivity, Epitaxy, 01 natural sciences, Nanomaterials, lcsh:Chemistry, chemistry.chemical_compound, X-ray photoelectron spectroscopy, 0103 physical sciences, aero-Ga2O3, General Materials Science, 010302 applied physics, business.industry, ultra-porous nanomaterial, 021001 nanoscience & nanotechnology, X-band and terahertz frequencies, lcsh:QD1-999, chemistry, Optoelectronics, Nanometre, 0210 nano-technology, business

Abstract

In this paper, fabrication of a new material is reported, the so-called Aero-Ga2O3 or Aerogallox, which represents an ultra-porous and ultra-lightweight three-dimensional architecture made from interconnected microtubes of gallium oxide with nanometer thin walls. The material is fabricated using epitaxial growth of an ultrathin layer of gallium nitride on zinc oxide microtetrapods followed by decomposition of sacrificial ZnO and oxidation of GaN which according to the results of X-ray diffraction (XRD) and X-ray photoemission spectroscopy (XPS) characterizations, is transformed gradually in β-Ga2O3 with almost stoichiometric composition. The investigations show that the developed ultra-porous Aerogallox exhibits extremely low reflectivity and high transmissivity in an ultrabroadband electromagnetic spectrum ranging from X-band (8–12 GHz) to several terahertz which opens possibilities for quite new applications of gallium oxide, previously not anticipated.

Published

2020

15. Photocatalytic properties of TiO2 nanotubes doped with Ag, Au and Pt or covered by Ag, Au and Pt nanodots

Author

Oliver G. Schmidt, Maria Guix, Veaceslav Ursaki, Ion Tiginyanu, V. Postolache, Tudor Braniste, M. Enachi, and Vladimir Ciobanu

Subjects

Anatase, Nanotube, Materials science, Inorganic chemistry, chemistry.chemical_element, Nanoparticle, Surfaces and Interfaces, Thermal treatment, engineering.material, Industrial and Manufacturing Engineering, Surfaces, Coatings and Films, chemistry.chemical_compound, Chemical engineering, chemistry, Rhodamine B, Photocatalysis, engineering, Noble metal, Titanium

Abstract

Titania nanotube arrays have been prepared by anodic oxidation of titanium foils in an electrolyte solution containing a mixture of hydrofluoric acid, ethylene glycol, and phosphoric acid. The initially amorphous nanotubes were found to crystalize in an anatase phase upon thermal treatment at 500°C. Anatase crystalline phase showed a significant improvement in the photocatalytic properties of the prepared samples, which was evaluated by studying their efficiency towards Rhodamine B dye degradation. Additionally, the effect of doping titania nanotubes with noble metals (e.g. Ag, Pt, and Au), or covering their surface with noble metal nanoparticles, was studied regarding their capabilities towards the photocatalytic degradation of Rhodamine B dye. A positive effect when samples were doped with Ag was revealed.

Published

2015

16. Sensing up to 40 atm Using Pressure‐Sensitive Aero‐GaN

Author

Simion Raevschi, Sindu Shree, Vladimir Ciobanu, Adrian Dinescu, Nicola M. Pugno, Tudor Braniste, Mircea Dragoman, Daniela Dragoman, Yogendra Kumar Mishra, Andrei Sarua, Ion Tiginyanu, and Rainer Adelung

Subjects

aeromaterials, Materials science, aerospace applications, business.industry, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, 0104 chemical sciences, gallium nitride, microtubular structures, ultra-lightweight pressure sensors, Materials Science (all), Pressure sensitive, Optoelectronics, General Materials Science, 0210 nano-technology, business

Abstract

This work reports on the fabrication and characterization of a robust pressure sensor based on aero-GaN. The ultraporous aeromaterial consists of GaN interconnected hollow micro-tetrapods with the wall thickness of about 70 nm. The inner surface of hollow micro-tetrapods contains an ultrathin film of ZnO genetically related to the sacrificial template used for epitaxial deposition of GaN. The pressure sensing measurements disclose a nearly linear dependence of the electrical conductance versus applied pressure up to 40 atm, a stable state signal being attained after an interval of about 10 s.

Published

2019

17. Light-Induced Motion of Microengines Based on Microarrays of TiO

Author

Mihail, Enachi, Maria, Guix, Vitalie, Postolache, Vladimir, Ciobanu, Vladimir M, Fomin, Oliver G, Schmidt, and Ion, Tiginyanu

Abstract

An electrochemical approach for manufacturing light-driven nanostructured titanium dioxide (TiO

Published

2016

18. Memristive GaN ultrathin suspended membrane array

Author

Vladimir Ciobanu, Mircea Dragoman, Ion Tiginyanu, Daniela Dragoman, and Tudor Braniste

Subjects

Fabrication, Materials science, FOS: Physical sciences, Bioengineering, 02 engineering and technology, 01 natural sciences, Planar, 0103 physical sciences, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), General Materials Science, Electrical and Electronic Engineering, Surface states, 010302 applied physics, Condensed Matter - Mesoscale and Nanoscale Physics, business.industry, Mechanical Engineering, Time constant, General Chemistry, 021001 nanoscience & nanotechnology, Membrane array, Membrane, Mechanics of Materials, Optoelectronics, 0210 nano-technology, business, Voltage

Abstract

In this paper, we show that ultrathin GaN membranes having a thickness of 15 nm and planar dimensions of 12x184 microns act as memristive devices. This fact is due to the migration of the negatively charged deep traps, which form in the volume of the membrane during the fabrication process, towards the unoccupied surface states of the suspended membranes. The time constant of the migration process is of the order of tens of second and varies with the current or voltage sweep., Comment: Accepted for publication in Nanotechnology

Published

2016

19. Learning mechanisms in memristor networks based on GaN nanomembranes

Author

Vladimir Ciobanu, Ion Tiginyanu, Adrian Dinescu, Mircea Dragoman, Tudor Braniste, and Daniela Dragoman

Subjects

010302 applied physics, Materials science, business.industry, media_common.quotation_subject, Nanostructured materials, Wide-bandgap semiconductor, General Physics and Astronomy, 02 engineering and technology, Memristor, 021001 nanoscience & nanotechnology, 01 natural sciences, Asymmetry, law.invention, Nanoelectronics, law, 0103 physical sciences, Optoelectronics, Dishabituation, Habituation, 0210 nano-technology, business, media_common, Voltage

Abstract

We demonstrate experimentally that single crystalline GaN nanomembranes arranged in simple networks exhibit learning mechanisms such as habituation and dishabituation followed by storage of the response to a certain electrical stimulus. These artificial learning mechanisms are analogous to non-associative learning processes which are identical in simple animals and human beings. We found that the learning time depends on the number of GaN membranes in parallel, and this parameter decreases by 30% when three memristors are connected in parallel compared to the learning time of a single memristor. Moreover, an increased number of parallel memristors reduces the eventual asymmetry in the temporal response of the circuit at positive and negative step voltages.

Published

2018

20. Microengines: Light-Induced Motion of Microengines Based on Microarrays of TiO2 Nanotubes (Small 39/2016)

Author

Maria Guix, Vladimir M. Fomin, V. Postolache, Vladimir Ciobanu, Ion Tiginyanu, M. Enachi, and Oliver G. Schmidt

Subjects

Biomaterials, Materials science, Light induced, General Materials Science, Nanotechnology, General Chemistry, Biotechnology

Published

2016

21. Light-Induced Motion of Microengines Based on Microarrays of TiO 2 Nanotubes

Author

Ion Tiginyanu, Maria Guix, Vladimir M. Fomin, V. Postolache, Vladimir Ciobanu, M. Enachi, and Oliver G. Schmidt

Subjects

Materials science, Annealing (metallurgy), Nanotechnology, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Electrochemistry, 01 natural sciences, 0104 chemical sciences, Biomaterials, 13. Climate action, Diffusiophoresis, Light induced, General Materials Science, Well-defined, 0210 nano-technology, Confined space, Nanoscopic scale, Microscale chemistry, Biotechnology

Abstract

An electrochemical approach for manufacturing light-driven nanostructured titanium dioxide (TiO2) microengines with controlled spatial architecture for improved performance is reported. The microengines based on microscale arrays of TiO2 nanotubes with variable (50–120 nm) inner diameter show a quasi-ordered arrangement of nanotubes, being the smallest tubular entities for catalytic microengines reported to date. The nanotubes exhibit well defined crystalline phases depending upon the postfabrication annealing conditions that determine the microengines' efficiency. When exposed to UV-light, the microarrays of TiO2 nanotubes exhibiting conical internal shapes show directed motion in confined space, both in the presence and absence of hydrogen peroxide. In the former case, two different motion patterns related to diffusiophoresis and localized nanobubble generation inside of the tubes due to the photocatalytic decomposition of H2O2 are disclosed. Controlled pick-up, transport, and release of individual and agglomerated particles are demonstrated using the UV light irradiation of microengines. The obtained results show that light-driven microengines based on microarrays of TiO2 nanotubes represent a promising platform for controlled micro/nanoscale sample transportation in fluids as well as for environmental applications, in particular, for the enhanced photocatalytic degradation of organic pollutants due to the improved intermixing taking place during the motion of TiO2 microengines.

22. Terahertz shielding properties of aero-GaN.

Author

Tudor Braniste, Sergey Zhukov, Mircea Dragoman, Liudmila Alyabyeva, Vladimir Ciobanu, Martino Aldrigo, Daniela Dragoman, Sergiu Iordanescu, Sindu Shree, Simion Raevschi, Rainer Adelung, Boris Gorshunov, and Ion Tiginyanu

Subjects

ELECTROMAGNETIC interference, SURFACE impedance, REFRACTIVE index, COMPOUND semiconductors, TERAHERTZ materials, PERMITTIVITY, DATABASES

Abstract

The electrodynamic properties of the first aero-material based on compound semiconductor, namely of Aero-GaN, in the terahertz frequency region are experimentally investigated. Spectra of complex dielectric permittivity, refractive index, surface impedance are measured at frequencies 4–100 cm−1 and in the temperature interval 4–300 K. The shielding properties are found based on experimental data. The aero-material shows excellent shielding effectiveness in the frequency range from 0.1 to 1.3 THz, exceeding 40 dB in a huge frequency bandwidth, which is of high interest for industrial applications. These results place the aero-GaN among the best THz shielding materials known today. [ABSTRACT FROM AUTHOR]

Published

2019

23. Advanced Hybrid GaN/ZnO Nanoarchitectured Microtubes for Fluorescent Micromotors Driven by UV Light

Author

Vladimir Ciobanu, Rainer Adelung, Marius Kamp, Niklas Wolff, Ion Tiginyanu, Sindu Shree, Lorenz Kienle, Oliver G. Schmidt, Tudor Braniste, Mariana Medina-Sánchez, Viola Duppel, Simion Raevschi, and M. Enachi

Subjects

Materials science, Nanowire, Nanotechnology, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Epitaxy, 01 natural sciences, 0104 chemical sciences, Amorphous solid, Biomaterials, Transmission electron microscopy, Photocatalysis, General Materials Science, Nanodot, 0210 nano-technology, Hybrid material, Nanoscopic scale, Biotechnology

Abstract

The development of functional microstructures with designed hierarchical and complex morphologies and large free active surfaces offers new potential for improvement of the pristine microstructures properties by the synergistic combination of microscopic as well as nanoscopic effects. In this contribution, dedicated methods of transmission electron microscopy (TEM) including tomography are used to characterize the complex hierarchically structured hybrid GaN/ZnO:Au microtubes containing a dense nanowire network on their interior. The presence of an epitaxially stabilized and chemically extremely stable ultrathin layer of ZnO on the inner wall of the produced GaN microtubes is evidenced. Gold nanoparticles initially trigger the catalytic growth of solid solution phase (Ga1- x Znx )(N1- x Ox ) nanowires into the interior space of the microtube, which are found to be terminated by AuGa-alloy nanodots coated in a shell of amorphous GaOx species after the hydride vapor phase epitaxy process. The structural characterization suggests that this hierarchical design of GaN/ZnO microtubes could offer the potential to exhibit improved photocatalytic properties, which are initially demonstrated under UV light irradiation. As a proof of concept, the produced microtubes are used as photocatalytic micromotors in the presence of hydrogen peroxide solution with luminescent properties, which are appealing for future environmental applications and active matter fundamental studies.

24. Protein-corona formation on aluminum doped zinc oxide and gallium nitride nanoparticles

Author

Vladimir Ciobanu, Francesco Roncari, Giacomo Ceccone, Tudor Braniste, Jessica Ponti, Alessia Bogni, Giuditta Guerrini, Domenico Cassano, Pascal Colpo, and Ion Tiginyanu

Subjects

Biomaterials, Surface-Active Agents, Biomedical Engineering, Biophysics, Humans, Bioengineering, Gallium, Protein Corona, Serum Albumin, Bovine, General Medicine, Zinc Oxide, Aluminum

Abstract

The interaction of semiconductor nanoparticles with bio-molecules attracts increasing interest of researchers, considering the reactivity of nanoparticles and the possibility to control their properties remotely giving mechanical, thermal, or electrical stimulus to the surrounding bio-environment. This work reports on a systematic comparative study of the protein-corona formation on aluminum doped zinc oxide and gallium nitride nanoparticles. Bovine serum albumin was chosen as a protein model. Dynamic light scattering, transmission electron microscopy and X-ray photoelectron spectroscopy techniques have been used to demonstrate the formation of protein-corona as well as the stability of the colloidal suspension given by BSA, which also works as a surfactant. The protein adsorption on the NPs surface studied by Bradford Assay showed the dependence on the quantity of proteins adsorbed to the available sites on the NPs surface, thus the saturation was observed at ratio higher than 5:1 (NPs:Proteins) in case of ZnO, these correlating with DLS results. Moreover, the kinetics of the proteins showed a relatively fast adsorption on the NPs surface with a saturation curve after about 25 min. GaN NPs, however, showed a very small amount of proteins adsorbed on the surface, a change in the hydrodynamic size being not observable with DLS technique or differential centrifugal sedimentation. The Circular Dichroism analysis suggests a drastic structural change in the secondary structure of the BSA after attaching on the NPs surface. The ZnO nanoparticles adsorb a protein-corona, which does not protect them against dissolution, and in consequence, the material proved to be highly toxic for Human keratinocyte cell line (HaCaT) at concentration above 25 µg/mL. In contrast, the GaN nanoparticles which do not adsorb a protein-corona, show no toxicity signs for HaCaT cells at concentration as high as 50 µg/mL, exhibiting much lower concentration of ions leakage in the culture medium as compared to ZnO nanoparticles.

25. Terahertz shielding properties of aero-GaN

Author

Ion Tiginyanu, Martino Aldrigo, Rainer Adelung, L. N. Alyabyeva, Daniela Dragoman, Vladimir Ciobanu, Sindu Shree, Tudor Braniste, Sergiu Iordanescu, Mircea Dragoman, S. N. Zhukov, Simion Raevschi, and Boris Gorshunov

Subjects

010302 applied physics, Materials science, Terahertz radiation, business.industry, 02 engineering and technology, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, 7. Clean energy, Electronic, Optical and Magnetic Materials, 0103 physical sciences, Electromagnetic shielding, Materials Chemistry, Optoelectronics, Electrical and Electronic Engineering, 0210 nano-technology, business

Abstract

The electrodynamic properties of the first aero-material based on compound semiconductor, namely of Aero-GaN, in the terahertz frequency region are experimentally investigated. Spectra of complex dielectric permittivity, refractive index, surface impedance are measured at frequencies 4–100 cm−1 and in the temperature interval 4–300 K. The shielding properties are found based on experimental data. The aero-material shows excellent shielding effectiveness in the frequency range from 0.1 to 1.3 THz, exceeding 40 dB in a huge frequency bandwidth, which is of high interest for industrial applications. These results place the aero-GaN among the best THz shielding materials known today.

26. A SnS 2 -based photomemristor driven by sun

Author

Daniela Dragoman, Adrian Dinescu, Ion Tiginyanu, Vladimir Ciobanu, Emil Rusu, Mihail Batiri, and Mircea Dragoman

Subjects

Materials science, business.industry, General Physics and Astronomy, Conductance, 02 engineering and technology, Memristor, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, law.invention, Hysteresis, Semiconductor, law, Electrode, Optoelectronics, Solar simulator, 0210 nano-technology, business, Neuromorphic circuits, Voltage

Abstract

We demonstrate experimentally that a sample of a SnS2 layered semiconductor compound with the area of 1 cm2 and the thickness of 100 μm, contacted laterally by silver electrodes with the area of 1 mm2, acts naturally as a memristor device when illuminated by a sun simulator. Although the conductance of the device changes with the number of pulses or voltages sweeps, the current-voltage dependence is almost linear, showing only a very narrow but clearly pinched hysteresis, which is the main imprint of a memristor. This SnS2-based solid-state miniaturized photomemristor could be used for the implementation of all-optical neuromorphic circuits based on artificial neurons and synapses, oriented to learning algorithms of living organisms.

27. Memristive GaN ultrathin suspended membrane array.

Author

Mircea Dragoman, Ion Tiginyanu, Daniela Dragoman, Tudor Braniste, and Vladimir Ciobanu

Subjects

GALLIUM nitride, FABRICATION (Manufacturing), ELECTRIC potential, PHOTOCATALYTIC oxidation, THERMAL oxidation (Materials science)

Abstract

We show that ultrathin GaN membranes, with a thickness of 15 nm and planar dimensions of 12 × 184 μm2, act as memristive devices. The memristive behavior is due to the migration of the negatively-charged deep traps, which form in the volume of the membrane during the fabrication process, towards the unoccupied surface states of the suspended membranes. The time constant of the migration process is of the order of tens of seconds and varies with the current or voltage sweep. [ABSTRACT FROM AUTHOR]

Published

2016