Dr. Gabriel C. Prodan Profile

Dr. Gabriel C. Prodan

at Univ Ovidius Constanta

SPIE Involvement:

Author

Publications (24)

Proceedings Article | 3 October 2023 Presentation + Paper

C/Ti/C/Al/C/Si multilayer and C+Ti/C+Al/C+Si composite thin films: synthesis and characterization

Victor Ciupina, Rodica Vladoiu, Gabriel Prodan, Corneliu Porosnicu, Veronica Satulu, Ecaterina Andronescu, Bogdan Vasile, Virginia Nicolescu

Proceedings Volume 12653, 1265303 (2023) https://doi.org/10.1117/12.2676848

KEYWORDS: Silicon, Multilayers, Aluminum, Composites, Thin films, Titanium, Transmission electron microscopy, Film thickness, Oxygen, Chemical elements

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The purpose of this work is to obtain different kind of advanced nanostructures with four materials of interest: graphite, titanium, aluminum and silicon (C, Ti, Al and Si), deposited by Thermionic Vacuum Arc (TVA) technology on the Si substrate. In this respect we use three independent anode cathode plasma sources; the anode was represented by the coating material and the cathode by an electron thermos-emissive tungsten wire. The final thickness of the structures was 300 nm in the two cases: C/Ti/C/Al/C/Si multilayer film (34 nm C, 66 nm Ti, 35 nm C, 65 nm Al, 31 nm C, 69 nm Si) and C+Ti/C+Al/C+Si composite film (100 nm C+Ti, 100 nm C+Al, 100 nm C+Si). Also, for each type of samples there are some parameters varied: substrates temperature (Room Temperature, 200 °C, 300°C, 400°C) and bias voltage applied on substrates, i.e., - 400 V. In order to perform TEM measurement samples have been prepared as XTEM specimens using Ion Mill techniques. TEM bright field image was used to measure layers thickness. EDX and STEM mapping was carried out to evaluate sample composition. Also, HRTEM images were use for structural analyze. SEM and EDX (Elementalcomposition) characterization studies show a dependence of the atomic percentage of the elements Ti, Si and Al on the substrate deposition temperature. In both cases, C/Ti/C/Al/C/Si multilayer film and C+Ti/C+Al/C+Si composite film, the percentages for carbon were too low to be detected by this technique. XPS depth profiles reveal the atomic percentages of Si2p, C1s, Al2p, Ti2p, O1s peaks from 300 nm over Si substrate (zero etch time) to 0 nm (5000 s etch time), for Si/C/Al/C/Ti/C multilayer structures and C+Ti/C+Al/C+Si composite structures prepared at room temperature and at 300°C with -400 V bias voltage, respectively. For Si/C/Al/C/Ti/C multilayer structures the difference between the two cases is given by the oxygen concentration. For the composite sample deposited at room temperature, oxygen atomic percentage decreases in respect to the sample depth, however it has a peak around 4000 s etch time, probably due to the chemical affinity with the two elements Ti and Al respectively. The tribology measurements show that friction coefficient (values of minimum at 0.5 N load and values of maximum at 3 N load, at different deposition temperatures) reveal that the minimum values of the friction coefficient in the case of composite thin films are larger compared with the minimum values in the case of multilayer thin films. We suppose the measured values of friction coefficient are associated with the occurrence of atomic diffusion process to interfaces. Based on nanoindentation studies, Young modulus and Hardness in the cases of C/Ti/C/Al/C/Si multilayer thin films and C+Ti/C+Al/C+Si composite thin films are measured, using a force of 1000/2000 µN. It was noticed that the hardness is larger in the case of C+Ti/C+Al/C+Si composite samples (6.82 GPa) than in the case of C/Ti/C/Al/C/Si multilayer samples (2.15 GPa), i.e., for samples deposed at room temperature.

Proceedings Article | 21 August 2020 Presentation + Paper

Characterization of C-Ti multilayer thin films obtained by TVA technology

Victor Ciupina, Cristian Lungu, Rodica Vladoiu, Gabriel Prodan, Corneliu Porosnicu, Eugeniu Vasile, Madalina Prodan, Virginia Nicolescu, Virginia Dinca, Radu Manu, Ovidius Cupsa, Alin Velea

Proceedings Volume 11467, 114671R (2020) https://doi.org/10.1117/12.2567927

KEYWORDS: Titanium, Carbon, Multilayers, Diffraction, Crystals, Toxic industrial chemicals, Thin films, Sputter deposition, Resistance

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Carbon-Titanium multilayer thin films were obtained by Thermionic Vacuum Arc (TVA) method. The nanostructured films consisting by 100nm Carbon base layer and seven 40nm alternatively Titanium and Carbon layers were deposed on Silicon substrate. As well, to give C-Ti multilayer films with different percentages in Ti and C of layers, a 100nm thick Carbon base layer was deposed on Si substrate, and then seven Ti-C layers, each of these having thickness of 40nm. In order to achieve the successively layers with C, and Ti different percentages, were adjusted the discharge parameters of C and Ti plasma sources to obtain the desired composition of layers. Also, were obtained composite films having a variable C: Ti atomic ratio 9:1 at interface to 1:9 at the surface. By changing of substrate temperature from room temperature to 100°C, 200°C, 300°C, 400°C respectively, and on the other hand the bias potential up to –700V, different batches of samples were obtained. Characterization of structural properties of films was achieved by Electron Microscopy technique (TEM, STEM) and GIXRD techniques. The measurements show that increase of the substrate temperature reveal changes in TixCy lattice parameters. Thus, according to GIXRD analysis it was found out that the Ti:C atomic ratio changes with increase of synthesis temperature. Also, in the case of composite films an increase of amount and sizes of TiC nanocrystals with the increase of energy of Ti ions determined by increase of bias voltage was observed. The tribological measurements were performed using a ball-on-disk system with normal forces of 0.5, 1, 2, 3N respectively. Was found that the coefficient of friction depends on the synthesis temperature and on the bias voltage. It is also noted that the friction coefficient depends on the pure C content, Ti content and amount of TiC nanocrystallites. These results are due to atomic diffusion at Ti/C interfaces and also are associated with amount of TiC nanocrystallites. To characterize the electrical conductive properties, the electrical surface resistance versus temperature have been measured, and then the electrical conductivity is calculated. Using the Wiedemann-Frantz law was obtained the thermal conductivity.

Proceedings Article | 3 September 2019 Presentation + Paper

Carbon-titanium based multilayer nanostructures obtained by TVA method

Victor Ciupina, Cristian Lungu, Rodica Vladoiu, Gabriel Prodan, Corneliu Porosniccu, Eugeniu Vasile, Madalina Prodan, Virginia Nicolescu, Aurelia Mandes, Virginia Dinca, Ovidiu Cupsa

Proceedings Volume 11089, 110890N (2019) https://doi.org/10.1117/12.2528663

KEYWORDS: Carbon, Titanium, Multilayers, Silicon, Raman spectroscopy, Diffraction, Resistance, Crystals, Nanostructures

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C-Ti multilayer nanostructures were deposed by Thermionic Vacuum Arc (TVA) technology. The layers consisting of about 100nm Carbon base layer and seven 40nm alternatively T i and C layers were deposed on Silicon substrates. The thickness of such a multilayer structure was up to 500nm. On the other hand, in order to obtain C-Ti multilayer structures with variable thickness and different percentages in C and T i of layers, a 20nm thick C layer was first deposed on Si substrate and then seven T i-C layers, each of these having different thickness of up to 40nm were deposed. To perform the successively layers with various thickness were changed the discharge parameters for C and T i plasma sources to obtain the desirable thickness. By changing of substrate temperature between room temperature and 300°C and on the other hand the bias voltage up to −700V , different batches of samples were obtained for this study. To characterize microstructure properties of as prepared C-Ti multilayer structures were used Electron Microscopy techniques (TEM, SEM, STEM), X-Ray Photoelectron Spectroscopy, Raman Spectroscopy and RBS techniques. The measurements reveal the content of diamond-like sp³ and graphite-like sp² ; the ratio sp³/sp² increases when the bias voltage increases. Also, HRTEM and SAED patterns reveal an increase of amount and size of TiC nanocrystals with the increase of energy of Ti and C ions determined by increase of anode potential. For providing reliable quantitative information regarding the composition and the elements depth profile, RBS studies were performed using the 3MV Tandem Accelerator with specialized RBS spectrum simulation program SIRMA. Raman measurement reveal that peaks appear at around 250, 340, 420, 610, 740, 1340 and 1530−1567cm⁻¹ , suggesting mixtures of TiC, Ti₃C₂O₂ and Ti₃C₂ and at 1340, 1560cm⁻¹ , the characteristic D an G peaks of disordered carbon. The characterstic peaks of Ti₃C₂O₂ and Ti₃C₂ have vibrational modes at 347, 730 and 621cm⁻¹ respectively, peaks at 260 and 420cm⁻¹ correspond to TiC. The shift shown in the spectra of the samples may occurs owing to the mechanical stress. To characterize the electrical conductive properties, the electrical surface resistance versus temperature have been measured, and then the electrical conductivity. Using the Wiedeman-Frantz law was calculated the thermal conductivity, which increase with increase of the temperature, according to the decrease in the proportion of TiC phase.

SPIE Journal Paper | 7 May 2019

Recent advances in 3- to 10-nm quantum optical lithography

Eugen Pavel, Gabriel Prodan, Virgil Marinescu, Roxana Trusca

JM3, Vol. 18, Issue 02, 020501, (May 2019) https://doi.org/10.1117/12.10.1117/1.JMM.18.2.020501

KEYWORDS: Optical lithography, Transmission electron microscopy, Silicon, Scanning electron microscopy, Lithography, Prototyping, Nanostructures, Diffraction, Excitons, Semiconductors

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Proceedings Article | 7 September 2018 Presentation + Paper

Nanostructured carbon-titanium multilayer films obtained by thermionic vacuum arc method

Victor Ciupina, Cristian Lungu, Rodica Vladoiu, Gabriel Prodan, Corneliu Porosnicu, Eugeniu Vasile, Madalina Prodan, Virginia Nicolescu, Aurelia Mandes, Virginia Dinca, Ovidiu Cupsa

Proceedings Volume 10731, 1073107 (2018) https://doi.org/10.1117/12.2320474

KEYWORDS: Crystals, Multilayers, Carbon, Titanium, Diffraction, Resistance, Scanning electron microscopy, Raman spectroscopy, Silicon

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Carbon-Titan (C-Ti) multilayer films were deposited on silicon substrates by means of Thermionic Vacuum Arc (TVA) method. The final thickness of the multilayer structures was up to 400nm. The coated layers consisted of a base layer of about 100nm of Carbon deposited at low evaporation rates in order to ensure its stability on the substrate. Subsequently, seven Carbon and Titanium layers were deposited alternatively on top of Carbon base layer, each of them has a final thickness up to 40nm. For this study we obtained different batches of samples by variation of the substrate temperature between 0°C and 400°C, and the ion acceleration voltage applying a negative substrate bias voltage up to -700V . A low deposition rate 0.14nm/s for C and 0.18nm/s for Ti respectively was used in order to obtain the precise thickness.

The characterization of microstructure properties of as prepared C-Ti multilayer structures were done using Electron Microscopy techniques (TEM, SEM, STEM), and Raman Spectroscopy. TEM and STEM studies were performed on Philips Tecnai F30G2 at 300kV setup. Identification of the structure of the material was based on the data obtained from diffraction pattern with a Philips CM120ST using CRISP2 application, with crystalline material module (ELD). The morphology and thickness of the samples were also determined by SEM techniques with Quanta FEG450 setup. The thickness thus measured are between 155.4nm and 393.9nm. Raman spectra were measured at room temperature on a Jobin Yvon T6400 spectrometer using 514.5nm line of an Ar+ laser as the excitation source. The measurements reveal the content of diamond-like sp³ and graphite-like sp²; the ratio sp³/sp² increases when the bias voltage increases. For tribological characteristics determination, systematic measurements were performed using a ball-on-disk tribometer made by CSM Switzerland with normal force of 0.5, 1, 2, 3N respectively. The coefficient of friction depends on the substrate temperature and on the bias voltage. To characterize the electrical conductive properties, the electrical surface resistance versus temperature have been measured using drop voltage between two ohmic contacts on the sample and drop voltage on a standard resistance in a constant current regime. Owing to metallic layer of titanium in multilayer films, mechanical and electrical properties can be improved.

Proceedings Article | 26 September 2016 Presentation + Paper

Characterization of nitrogen doped silicon-carbon multi-layer nanostructures obtained by TVA method

Victor Ciupina, Eugeniu Vasile, Corneliu Porosnicu, Gabriel Prodan, Cristian Lungu, Rodica Vladoiu, Ionut Jepu, Aurelia Mandes, Virginia Dinca, Aureliana Caraiane, Virginia Nicolescu, Paul Dinca, Agripina Zaharia

Proceedings Volume 9929, 992910 (2016) https://doi.org/10.1117/12.2237156

KEYWORDS: Oxidation, Silicon carbide, Carbon, Nitrogen, Transmission electron microscopy, Silicon, Resistance, Oxygen, Coating, Plasma

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Proceedings Article | 20 August 2015 Presentation + Paper

Structural and electrical properties of N doped SiC nanostructures obtained by TVA method

Victor Ciupina, Cristian Lungu, Rodica Vladoiu, Gabriel Prodan, Stefan Antohe, Corneliu Porosnicu, Iuliana Stanescu, Ionut Jepu, Sorina Iftimie, Marius Belc, Aurelia Mandes, Virginia Dinca, Eugeniu Vasile, Valeriu Zarovski, Virginia Nicolescu, Aureliana Caraiane

Proceedings Volume 9558, 955808 (2015) https://doi.org/10.1117/12.2187362

KEYWORDS: Silicon, Silicon carbide, Ions, Nitrogen, Transmission electron microscopy, Plasma, Argon, Glasses, Etching, Nanostructures

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Proceedings Article | 27 August 2014 Paper

The effect of the substrate temperature and the acceleration potential drop on the structural and physical properties of SiC thin films deposed by TVA method

Victor Ciupina, Cristian Lungu, Rodica Vladoiu, Gabriel Prodan, Stefan Antohe, Corneliu Porosnicu, Iuliana Stanescu, Ionut Jepu, Sorina Iftimie, Madalina Prodan, Aurelia Mandes, Virginia Dinca, Eugeniu Vasile, Valeriu Zarovski, Virginia Nicolescu

Proceedings Volume 9172, 91720Y (2014) https://doi.org/10.1117/12.2061186

KEYWORDS: Silicon carbide, Silicon, Crystals, Carbon, Thin films, Transmission electron microscopy, Coating, Glasses, Temperature metrology, Resistance

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SPIE Journal Paper | 27 February 2014

Silicon carbide multilayer protective coating on carbon obtained by thermionic vacuum arc method

Victor Ciupina, Christian Lungu, Rodica Vladoiu, Gabriel Prodan, Corneliu Porosnicu, Marius Belc, Iuliana Stanescu, Eugeniu Vasile, Razvan Rughinis

JNP, Vol. 8, Issue 01, 083996, (February 2014) https://doi.org/10.1117/12.10.1117/1.JNP.8.083996

KEYWORDS: Silicon carbide, Coating, Carbon, Multilayers, Silicon, Composites, Resistance, Oxygen, Crystals, Oxidation

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Proceedings Article | 19 September 2013 Paper

SiC multi-layer protective coating on carbon obtained by thermionic vacuum arc method

V. Ciupina, C. Lungu, R. Vladoiu, T-D. Epure, G. Prodan, C. Roşca, C. Porosnicu, I. Jepu, M. Belc, M. Prodan, I. Stanescu, C. Stefanov, M. Contulov, A. Mandes, V. Dinca, E. Vasile, V. Zarovschi, V. Nicolescu

Proceedings Volume 8818, 881807 (2013) https://doi.org/10.1117/12.2024018

KEYWORDS: Silicon carbide, Coating, Carbon, Resistance, Silicon, Oxygen, Crystals, Transmission electron microscopy, Scanning transmission electron microscopy, Oxidation

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Proceedings Article | 17 October 2012 Paper

Application of carbon-aluminum nanostructures in divertor coatings from fusion reactor

V. Ciupina, C. Lungu, R. Vladoiu, T. Epure, G. Prodan, C. Porosnicu, M. Prodan, I. Stanescu, M. Contulov, A. Mandes, V. Dinca, V. Zarovschi

Proceedings Volume 8465, 846508 (2012) https://doi.org/10.1117/12.930443

KEYWORDS: Aluminum, Carbon, Diffraction, Nanostructuring, Scanning electron microscopy, Transmission electron microscopy, Composites, Thin films, Beryllium, Glasses

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Nanostructured carbon materials have increasingly attracted the interest of the scientific community, because of their fascinating physical properties and potential applications in high-tech devices. In the current ITER design, the tiles made of carbon fiber composites (CFCs) are foreseen for the strike point zone and tungsten (W) for other parts of the divertor region. This choice is a compromise based mainly on experience with individual materials in many different tokamaks. Also Carbon-Aluminum composites are the candidate material for the First Wall in ITER. In order to prepare nanostructured carbon-aluminum nanocomposite for the divertor part in fusion applications, the original method thermionic vacuum arc (TVA) was used in two electronic guns configuration. One of the main advantages of this technology is the bombardment of the growing thin film just by the ions of the depositing film. Moreover, the energy of ions can be controlled. Thermo-electrons emitted by an externally heated cathode and focused by a Wehnelt focusing cylinder are strongly accelerated towards the anode whose material is evaporated and bright plasma is ignited by a high voltage DC supply. The nanostructured C-Al films were characterized by Scanning Electron Microscopy (SEM), Transmission Electron Microscopy (TEM). Tribological properties in dry sliding were evaluated using a CSM ball-on-disc tribometer. The carbon - aluminum films were identified as a nanocrystals complex (from 2nm to 50 nm diameters) surrounded by amorphous structures with a strong graphitization tendency, allowing the creating of adherent and wear resistant films. The friction coefficients (0.1 - 0.2, 0.5) of the C-Al coatings was decreased more than 2-5 times in comparison with the uncoated substrates proving excellent tribological properties. C-Al nanocomposites coatings were designed to have excellent tribological properties while the structure is composed by nanocrystals complex surrounded by amorphous structures with a strong graphitization tendency, allowing the creating of adherent and wear resistant films.

Proceedings Article | 26 September 2011 Paper

Electron microscopy characterization of some carbon based nanostructures with application in divertors coatings from fusion reactor

V. Ciupina, I. Morjan, C. Lungu, R. Vladoiu, G. Prodan, M. Prodan, V. Zarovschi, C. Porosnicu, I. Stanescu, M. Contulov, A. Mandes, V. Dinca, K. Sugiyama

Proceedings Volume 8104, 810411 (2011) https://doi.org/10.1117/12.892198

KEYWORDS: Carbon, Beryllium, Ions, Plasma, Nanocomposites, Transmission electron microscopy, Thin films, Tungsten, Nanostructuring, Composites

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Proceedings Article | 28 August 2010 Paper

Synthesis and characterization of some carbon based nanostructures

Victor Ciupina, Ion Morjan, Rodica Alexandrescu, Florian Dumitrache, Gabriel Prodan, Cristian Lungu, Rodica Vladoiu, Ion Mustata, Vasile Zarovschi, John Sullivan, Sayah Saied, Eugeniu Vasile, Iuliana Oancea-Stanescu, Madalina Prodan, Dorina Manole, Aurelia Mandes, Virginia Dinca, Mirela Contulov

Proceedings Volume 7764, 77640O (2010) https://doi.org/10.1117/12.859456

KEYWORDS: Carbon, Transmission electron microscopy, Iron, Thin films, Particles, Nanoparticles, Nanostructures, Diamond, X-rays, Spectroscopy

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Proceedings Article | 9 September 2008 Paper

ZnO nanoparticles obtained by hydrothermal method at low temperature

V. Ciupina, A. Dumbrava, I. Morjan, G. Prodan, M. Prodan, F. Dumitrache, E. Vasile

Proceedings Volume 7039, 703911 (2008) https://doi.org/10.1117/12.795184

KEYWORDS: Zinc oxide, Nanoparticles, Particles, Transmission electron microscopy, Zinc, Diffraction, Nanostructures, Photomicroscopy, Scanning electron microscopy, Semiconductors

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Proceedings Article | 18 September 2007 Paper

Electron microscopy characterization of iron oxide nanopowders (prepared by laser pyrolysis) for magnetic fluid applications

V. Ciupina, G. Prodan, I. Morjan, F. Dumitrache, R. Alexandrescu, E. Vasile, L. Vegas, D. Bica

Proceedings Volume 6645, 66451P (2007) https://doi.org/10.1117/12.730675

KEYWORDS: Particles, Magnetism, Nanoparticles, Iron, Crystals, Oxides, Microfluidics, Nanocrystals, Laser applications, Liquids

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Proceedings Article | 1 August 2007 Paper

Functionalized Si/SiO2 quantum dots

C. Sima, C. Viespe, I. Nicolae, C. Grigoriu, G. Prodan, V. Ciupina, A. Cismileanu, C. Nistor, C. Nicolae, D. Donescu

Proceedings Volume 6785, 67850K (2007) https://doi.org/10.1117/12.756830

KEYWORDS: Polymerization, Polymers, Transmission electron microscopy, Quantum dots, Nanoparticles, Particles, Silicon, Luminescence, Laser ablation, Ultraviolet radiation

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Proceedings Article | 1 August 2007 Paper

Spectroscopic characteristics of RE³⁺: Sc₂O₃ ceramics

V. Lupei, A. Lupei, C. Gheorghe, A. Ikesue, A. Stefan, V. Ciupina, A. Prodan

Proceedings Volume 6785, 67850C (2007) https://doi.org/10.1117/12.755967

KEYWORDS: Ceramics, Absorption, Crystals, Neodymium, Ytterbium, Thulium, Spectroscopy, Erbium, Ions, Laser crystals

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Proceedings Article | 25 April 2007 Paper

Structural and magnetic properties of nanosized iron-polyoxocarbosilane core-shell composites prepared by laser pyrolysis

R. Alexandrescu, I. Morjan, F. Dumitrache, J. Pola, V. Vorlicek, M. Marysko, L. Gavrila, M. Scarisoreanu, I. Voicu, I. Sandu, C. Fleaca, E. Popovici, G. Prodan

Proceedings Volume 6606, 66060K (2007) https://doi.org/10.1117/12.729585

KEYWORDS: Iron, Particles, Magnetism, Nanoparticles, Polymers, Atmospheric particles, Nanocomposites, Raman spectroscopy, Oxides, Electron microscopy

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Proceedings Article | 20 April 2006 Paper

Study of Si/SiO₂ nanoparticles produced by laser ablation

C. Grigoriu, K. Suwa, K. Muray, H. Suematsu, I. Nicolae, V. Ciupina, G. Prodan

Proceedings Volume 6195, 61951A (2006) https://doi.org/10.1117/12.664397

KEYWORDS: Particles, Nanoparticles, Silicon, Laser ablation, Luminescence, Transmission electron microscopy, Scanning electron microscopy, Helium, Argon, X-ray diffraction

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Proceedings Article | 24 August 2005 Paper

Iron/iron carbides/carbon core-shell nanostructures synthesized by laser pyrolysis

V. Ciupina, G. Prodan, F. Dumitrache, I. Morjan, R. Alexandrescu, E. Popovici, I. Soare, L. Albu, R. Birjega, B. David, O. Schneeweiss

Proceedings Volume 5924, 592418 (2005) https://doi.org/10.1117/12.620633

KEYWORDS: Iron, Carbon, Nanoparticles, Particles, Diffraction, Raman spectroscopy, Magnetism, Transmission electron microscopy, Nanocomposites, Crystals

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Proceedings Article | 23 February 2005 Paper

Complex rare-earth-substituted lead titanate piezoceramics II

Elena Dimitriu, Floriana Craciun, Rodica Ramer, Gabriel Prodan, Victor Ciupina

Proceedings Volume 5650, (2005) https://doi.org/10.1117/12.582437

KEYWORDS: Lead, Dielectrics, Ions, Manganese, Bismuth, Transducers, Europium, Praseodymium, Temperature metrology, Perovskite

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Proceedings Article | 21 October 2004 Paper

TEM study of CaTiO3 synthesized by sol-gel method

Victor Ciupina, Ionela Carazeanu, Elisabeta Chirila, Gabriel Prodan

Proceedings Volume 5581, (2004) https://doi.org/10.1117/12.582808

KEYWORDS: Transmission electron microscopy, Sol-gels, Crystals, X-ray diffraction, Calcium, Particles, Nanoparticles, Luminescence, Photomicroscopy, Perovskite

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Proceedings Article | 8 October 2004 Paper

Carbon-encapsulated iron nanoparticles prepared by laser pyrolysis: characterization and catalyzers for carbon nanotubes and nanofibers

Florian Dumitrache, Victor Ciupina, Ion Morjan, Rodica Alexandrescu, Ion Voicu, Iuliana Soare, Lavinia Albu, Raluca Morjan, Gabi Prodan

Proceedings Volume 5515, (2004) https://doi.org/10.1117/12.561332

KEYWORDS: Iron, Carbon, Particles, Nanoparticles, Gas lasers, Transmission electron microscopy, Nanocomposites, Carbon monoxide, Raman spectroscopy, Carbon nanotubes

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Proceedings Article | 17 October 2003 Paper

Iron-carbon nanocomposite obtained by laser-induced gas-phase reactions

Florian Dumitrache, Ion Morjan, Rodica Alexandrescu, B. Rand, Victor Ciupina, G. Prodan, Ion Voicu, Ioan Sandu, I. Soare, M. Ploscaru, C. Fleaca, R. Brydson, Eugen Vasile

Proceedings Volume 4977, (2003) https://doi.org/10.1117/12.501664

KEYWORDS: Iron, Carbon, Particles, Nanoparticles, Nanocomposites, Gas lasers, Transmission electron microscopy, Carbon monoxide, Composites, Raman spectroscopy

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