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INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE INCDTIM DIN CLUJ NAPOCA
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Charge Generation by Soft Materials and Devices
Call name:
Second Swiss Contribution, RO-CH-2024
F-RO-CH-2024-0041
2025
-
2029
Role in this project:
Coordinating institution:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M
Project partners:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M (RO); Swiss Federal Laboratories for Materials Science and Technology (CH); Faculty of Chemistry and Pharmacy, Sofia University (BG)
Affiliation:
Project website:
Abstract:
This collaborative project will allow building a strong network between Opris ' group at the Swiss Federal Laboratories for Materials Science and Technology (Empa), Switzerland (CH), Nan 's group at the National Institute for Research and Development of Isotopic and Molecular Technologies (INCDTIM), Romania (RO), and Vassileva's group at Sofia University "St. Kliment Ohrid ski" (UniSofia), Faculty of Chemistry and Pharmacy, Bulgaria (BG).
The prospects for self-powered, electrically stimulated devices are enormous as the number of patients requiring pacemaker or neurostimulator implantation continues to grow. One of the main challenges in these devices is the power supply. Developing soft self-powered devices could pave the way to more accessible treatment of neurodegenerative and cardiac diseases. It may also allow for electric power-triggered (on-off) implantable drug delivery systems. Such devices may be made with stimuli-responsive soft materials, which lead to groundbreaking technological advances in sensors, actuators, and generators and may impact personalized medical devices.
A fascinating and rapidly growing research is charge generation using soft and stretchable materials and devices. They can convert different energy sources into electricity while complying with various surfaces and shapes. Charge generation from soft materials is particularly interesting, especially when conventional rigid energy generators can't be used, such as in untethered soft robots, wearable electronics, and biomedical implants.
This project aims to develop soft stimuli-responsive materials and devices that convert different forms of energy, including mechanical, thermal, and magnetic energy, into electricity. A soft charge generator consists of a stimuli-responsive soft material placed on interdigitated electrodes or between two compliant electrodes whose function is to collect the generated charge. Different kinds of soft materials, including magnetic elastomers, dielectric elastomers, magnetoelectric elastomers, ionogels, and magnetic ionogels, will be developed. They will be processed in functional devices, and their ability to generate charges due to mechanical, thermal, or magnetic stress will be evaluated and optimized.
Thus, we propose: a) to develop and investigate soft magnetic elastic devices that use electromagnetic induction to generate electricity from mechanical and thermal stress;
b) to develop and investigate high dielectric permittivity elastomers and their composites with soft magnetic nanoparticles regarding the possibility of converting mechanical and magnetic energy into electricity; and c) to synthesize ionogels and magnetic ionogels based on polyzwitterions and investigate their ability to generate charge when mechanically, thermally, and magnetically stressed.
Combining complementary groups' expertise will ensure a more comprehensive understanding of dielectric, piezoelectric, magnetic, and ionogel materials, which will significantly contribute to obtaining stimuli-responsive soft and stretchable materials and devices that generate charge.
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Photo-electrochemical Hydrogen Generation Integrated with Photochargeable Zinc Ion Battery
Call name:
PNCDI IV, P 5.8 - SP 5.8.1 - ERANET-2023
ERANET-PECZIB
2025
-
2028
Role in this project:
Coordinating institution:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M
Project partners:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M (RO); TOBB University of Economics and Technology (TR); Adam Mickiewicz University (PL); Sabanci University (TR)
Affiliation:
Project website:
https://www.etu.edu.tr/en/sayfa/about-m-era-net
Abstract:
In this project, novel heterojunction thin film electrode-based photoelectrochemical (PEC) water-splitting devices integrated with photochargeable zinc ion batteries (photo-ZIB) will be developed to provide hydrogen (H2) in a clean, sustainable, efficient, and cost-effective manner. The bias potential required by the system to be produced is met by photo-ZIB, which can be directly charged by sunlight. Specifically, we propose creating heterojunctions of zinc oxide nanostructures with kesterite-type and chalcogenide-type semiconductor thin films for highly efficient photoelectrochemical (PEC) reactions. Additionally, compositionally complex ceramics will be utilized to enhance the photo-anodes' stability and catalytic activity. Dark cathodes based on high-entropy ceramics will be obtained to provide a cost-effective alternative to current technology. Thus, it aims to design an innovative device that can be an alternative to the classically used photovoltaic solar cell-electrolyzer systems in terms of cost and efficiency.
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Composites materials with tunable properties for dual applications in photocatalysis and supercapacitors
Call name:
PNCDI IV, P 5.8 - SP 5.8.3 - Proiecte complexe bilaterale cu Republica Moldova, PCB-RO-MD-2024
PN-IV-PCB-RO-MD-2024-0349
2025
-
2027
Role in this project:
Coordinating institution:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M
Project partners:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M (RO); Universitatea de Stat din Moldova (MD)
Affiliation:
Project website:
https://www.itim-cj.ro/PNCDI/matphotscs/ro/home-romana/
Abstract:
This project addresses an issue of major scientific interest, namely long-term solutions to energy crisis and environmental challenges. The overall objective of the project is to develop new composite materials based on carbon structures (CS) (AC and g-C3N4) and TiO2 nanotubes (TNs) with tunable properties by controlling their shape, defects, and interface processes for dual applications in photocatalysis and supercapacitors. The scientific objectives are: SO.1 Developing novel nanocomposites based on carbon structures CS and TNs with specific features for photocatalytic and supercapacitive applications; SO.2 Testing of the produced nanocomposites in photocatalytic applications for degradation of organic molecules (antibiotics or dyes) and supercapacitor applications.S.O.3 Increasing international visibility by applying for European projects, enhancing connections and research networks with the Republic of Moldova, promoting Moldovan researchers into international networks, connecting academic partners with industrial research, and training young researchers.The primary goal of the project is to develop and evaluate the electrochemical and photocatalytic performance of such composite materials in order to achieve enhanced photocatalytic response (20% higher) and high-performance SCs devices with high energy density (15 wh/kg), high power density (more than 100 kw/kg), and long cycle life (20% higher) that are competitive with those already on the market.
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Boosting the energy storage performance of supercapacitor materials by controlling the paramagnetic centers
Call name:
PNRR/2022/C9/MCID/I 8
2023
-
2026
Role in this project:
Key expert
Coordinating institution:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M
Project partners:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Affiliation:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Project website:
https://www.itim-cj.ro/pnrr/cf163/
Abstract:
Supercapacitors (SCs) are known as promising energy storage devices. Electrodes are key components in producing SCs, and the strategies for selecting the right
electrodes play a decisive role in their specific power and energy storage performance; thus, an ideal electrode material should have tuning properties in terms of size,
shape, defects, porosity, high charge mobility and interface phenomena. The project’s general objective is to develop new nanocomposites based on 2D-carbon
structures and metal oxide or metal sulfide semiconductors by controlling and adjusting their shape, defects, interface phenomena, and electric properties as materials
for all-solid-state SCs. The target of the newly developed SCs devices is to function at voltages higher than 3 V.
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Nanostructured hybrid architectures with tunable magneto-luminescent properties
Call name:
P 4 - Proiecte de cercetare exploratorie - PCE-2021
PN-III-P4-PCE-2021-1561
2022
-
2024
Role in this project:
Coordinating institution:
UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA
Project partners:
UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO)
Affiliation:
Project website:
https://c4s.utcluj.ro/Nano-Mag@Lu/Nano-Mag@Lu%20-%20Ro.html
Abstract:
The main objective of the project is to develop new magneto-luminescent hybrid architectures based on the understanding of the effects induced by low-dimensionality, and proximity on the chemical and physical properties. The main objective will be achieved by following specific objectives: (O1) Nano-sized magnetic or luminescent particles – chemical synthesis and characterization; (O2) Mag@Lu-Sys: core-shells and multilayers heterostructures – chemical elaboration and characterization; (O3) Understanding the synergism - antagonism relationship between physical properties in elaborated hybrid systems; (O4) Development of new magneto-luminescent hybrid systems with predefined chemical composition and targeted properties and functionalities for biomedical applications.
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Photoactive ultrafiltration membranes for water decontamination
Call name:
P 1 - SP 1.1 - Proiecte de cercetare pentru stimularea tinerelor echipe independente - TE-2021
PN-III-P1-1.1-TE-2021-0836
2022
-
2024
Role in this project:
Coordinating institution:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M
Project partners:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M (RO)
Affiliation:
Project website:
https://www.itim-cj.ro/PNCDI/photomemb/
Abstract:
Water is the source of life and an essential resource for human survival. With fast socio-economic development and increasing population across the world, water environment crisis has drawn widespread concern for humanity nowadays. An improvement of water supply and sanitation, and a better management of water resources, especially in terms of water reuse, can greatly contribute to poverty reduction and can boost economic growth in low-income countries. Responding to these requirements the need of adopting new environmentally friendly technologies is necessary. Taking into account the state of the art in the field and the scientific results obtained in the last years by our research team, in this project we intend to develop photoactive ultrafiltration PVDF membranes modified with ZnO-MFe2O4 for water decontamination using advanced oxidation and separation processes. The achievement of the general objective involves the fulfillment of the following specific objectives: O1. Obtaining ZnO-MFe2O4 heterostructures with enhanced photocatalytic activity under visible light irradiation; and O2. Development of PVDF membranes modified with ZnO-MFe2O4 heterostructures for water decontamination using advanced oxidation and separation processes. For the realization of the project it is envisaged the use of appropriate infrastructure and a multidisciplinary young team. The results of the project will be disseminate by scientific publications-communications and project web-site.
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New permanent magnets with lower cost and high performance
Call name:
P 2 - SP 2.1 - Proiect experimental - demonstrativ
PN-III-P2-2.1-PED-2019-3484
2020
-
2022
Role in this project:
Coordinating institution:
UNIVERSITATEA BABES BOLYAI
Project partners:
UNIVERSITATEA BABES BOLYAI (RO); INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M (RO)
Affiliation:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M (RO)
Project website:
https://municheos.wixsite.com/dianabenea/pn-iii-p2-2-1-ped-2019-3484
Abstract:
The present project aims to develop new permanent magnets with lower cost and high performance in two ways:
1. By obtaining new intermetallic compounds of R-M-A and R-M type (R = Y and rare earth, M = transition metal 3d, A = metalloid, carbon or nitrogen), having low critical rare earth content, high anisotropy and high saturation magnetization. We start from known systems, aiming to improve the coercivity of the samples through a very good control of the composition and of the microstructure. Also, we aim to find new phases with high magnetization, high anisotropy and high Curie temperature, by theoretical exploration of the phase diagrams and by structural optimization. In particular, due to the high interest in obtaining permanent magnets with low critical elements (Dy, Nd, Pr) content, we intend to develop a compound in which Ce (or possibly Y, La) will replace all or part of these critical elements, keeping a Curie temperature over 600 Celsius, residual magnetization over 10 kG and coercivity over 10 kOe.
2. By producing new hard magnetic phases without rare earth content, with high intrinsic coercivity, high magnetization and performant energy product, based on Mn-Bi and Mn-Al alloys, where we have obtained promising results. We propose the increase of anisotropy of the 3d alloys by inducing a tetragonal distortion of the structure, obtained by addition of interstitial N, C, B or by additions of other d transition elements. The aim is to obtain compounds with high anisotropy and exchange induced d-d positive interactions, crucial for obtaining a high coercivity, in order to build rare-earth free permanent magnets with competitive performances.
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Increasing technological and knowledge transfer capacity of INCDTIM Cluj in the field of bioeconomics
Call name:
POC 18/2016
2016
-
2021
Role in this project:
Key expert
Coordinating institution:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M
Project partners:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M (RO)
Affiliation:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M (RO)
Project website:
http://www.itim-cj.ro/poc/ttc/
Abstract:
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Core-shell composite nanoparticles based on Fe and Pt having adjustable magnetic, dispersive and functional properties
Call name:
Exploratory Research Projects - PCE-2011 call
PN-II-ID-PCE-2011-3-0876
2011
-
2016
Role in this project:
Coordinating institution:
Institutul National de Cercetare–Dezvoltare pentru Tehnologii Izotopice si Moleculare
Project partners:
Institutul National de Cercetare–Dezvoltare pentru Tehnologii Izotopice si Moleculare (RO)
Affiliation:
Institutul National de Cercetare–Dezvoltare pentru Tehnologii Izotopice si Moleculare (RO)
Project website:
http://www.itim-cj.ro/PNCDI/idei119/index_en.htm
Abstract:
In this project we are focused on synthesis and characterization of various core-shell or multi-shell nanoparticles based on Fe, Pt, conjugate polymers and silica or titania components.
General objective: Synthesis, characterization and applications of various types of Fe and Pt based nanoparticles with adjustable properties involving magnetic, dispersive and functional characteristics. Specific objectives: 1. Synthesis, structural and compositional characterization of multi-shell Fe@FePtL10@Pt nanoparticles; 2. Magnetic characterizations of Fe@FePtL10@Pt nanoparticles; adjustment of the coercive magnetic field based on synthesis – properties relationship; 3. Synthesis, structural and compositional characterization of multi-shell FePtL10@PPy and/or FePtL10@P3HT hybrid nanoparticles; 4. Magnetic characterizations and saturation magnetization adjustment by use of a suitable choice of polymer shells; 5. Synthesis, structural and compositional characterization of multi-shell FePtL10@SiO2 and/or FePtL10@TiO2 core-shell composite nanoparticles; 6. Magnetic characterization dispersion adjustment of FePtL10@SiO2 and/or FePtL10@TiO2 nanoparticles; 7. Hyperthermia tests with various Fe@FePtL10@Pt nanoparticles, having different FePtL10 intermediate shells, dispersed in water based solutions and gels; 8. Functionalization of Fe@FePtL10@Pt, FePtL10@PPy (P2HT) and FePtL10@SiO2 (TiO2) nanopatricles in view of magnetically molecular separation and uptake tests from water based solutions.
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DOPING AND SIZE EFFECTS ON THE MAGNETIC, STRUCTURAL AND MORPHOLOGICAL PROPERTIES AND SPIN DYNAMICS IN MICRO AND NANOSTRUCTURED FERROMAGNETIC OXIDES.
Call name:
Complex Exploratory Research Projects - PCCE-2008 call
PN-II-ID-PCCE-2008-0106
2010
-
2013
Role in this project:
Key expert
Coordinating institution:
Universitatea Tehnica din Cluj Napoca
Project partners:
Universitatea Tehnica din Cluj Napoca (RO); Institutul National de Cercetare Dezvoltare pentru Tehnologii Izotopice si Moleculare-INCDTIM-Cluj Napoca (RO); Institutul National de Cercetare Dezvoltare pentru Fizica Tehnica-INCDFT-Iasi (RO); Institutul National pentru Fizica Materialelor-INCDFM-Bucuresti (RO); INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU METALE NEFEROASE SI RARE (RO); Universitatea Politehnica din Bucuresti (RO)
Affiliation:
Institutul National de Cercetare Dezvoltare pentru Tehnologii Izotopice si Moleculare-INCDTIM-Cluj Napoca (RO)
Project website:
http://c4s.utcluj.ro/Current%20projects%20-PNII.html
Abstract:
Diluted magnetic oxides (DMO) are expected to play an important role in interdisciplinary materials science and future electronics because charge and spin degree of freedom coexist into single material. The control of the high temperature ferromagnetism and of the spin and charge transport in DMO micro- and nanostructures represent a necessary condition for the achievement and miniaturization of spintronic devices which could operate at and above the ambient temperature. The project involves a competitive and complementary partnership between 2 Technical Universities and 4 National R&D Institutes and has the main goal to obtain top research results based on the experimental and theoretical researches which will be performed on micro- and nanostructured semiconducting ferromagnetic oxide systems synthesized by innovating methods. By means of that, it will be answered to the still controversial problems in the fundamental research referring to the effects induced by the low dimensionality, magnetic ions doping degree and by the synthesis methods on the propitious characteristics necessarily to get the high temperature ferromagnetism in II-VI oxide semiconductors.
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Researches on the synthesis and characterization of advanced materials with superconducting and tribological applications
Call name:
2007
-
2010
Role in this project:
Key expert
Coordinating institution:
UNIVERSITATEA BABES BOLYAI
Project partners:
UNIVERSITATEA BABES BOLYAI (); INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Affiliation:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Project website:
Abstract:
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"Increasing the competitiveness of the electronic spin resonance laboratory (RES) existing within the Department of Multifunctional and Nanostructured Systems Physics, INCDTIM Cluj-Napoca for application in the knowledge-based economy"
Call name:
Proiect „CAPACITATI” nr. 127CP/1/ 14.09.2007
2007
-
2010
Role in this project:
Key expert
Coordinating institution:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M
Project partners:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Affiliation:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Project website:
https://www.itim-cj.ro/PNCDI/capacitati127/cp%20127final.html
Abstract:
The general objective of this project is the modernization of the existing ESR laboratory from the multifunctional and nanostructured systems department, INCDTIM Cluj-Napoca.
The modernization of the existing ESR laboratory will give rise to:
(i) development of CD activity at INCDTIM Cluj-Napoca, since it will permit the development of the subjects which could be touched inside the top level research on European and national stage. These subjects imply the development and the characterization of new materials and multifunctional products
(ii) certification of the ESR laboratory in order to be able to produce specific services
(iii) increase of the quality and diversification in the educational area through the partnerships with the universities by means of the training programs in magnetic resonance domain
(iv) involving of the young specialists in the magnetic resonance area who will represent and important reservoir of high qualified personal
(v) setting up of a magnetic resonance research base with multiple users in the Northwest region.
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CHARACTERIZATION OF MAGNETIC NANOWIRES AND THE CONTROL OF THEIR MAGNETIC AND STRUCTURAL PROPERTIES
Call name:
CEEX nr. 2996 / 11.10.2006
2006
-
2009
Role in this project:
Key expert
Coordinating institution:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M
Project partners:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Affiliation:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Project website:
Abstract:
his research project proposes a subject which is included in a top international research domain: nanomaterials and nanotechnologies.
The subject of the project is included in the research program PC7. This project can be included in the thematic area: Materials corresponding to the technological platform PT4: Nanoscience and Nanotechnologies.
The main goal of this project is the optimization of the synthesis process by controlling the specific properties and magnetic and structural characterization of the magnetic nanowires.
The specific objectives are:
A) Elaboration of the synthesis method and the synthesis of magnetic and metallic nanowires
B) Elaboration of a theoretical model for the characterization of the dipolar interaction between magnetic nanowires
C) Structural characterization using the X ray diffraction technique and the transmission electron microscopy (TEM)
D) Nanowire’s magnetic characterization and the correlation with the structural properties
The main objective of this project is framing in the following general objectives of the national research program: (i) the realization of the research activities in the new materials micro- and nano- structured domain; (ii) the framing in the UE research programs; (iii) a better use of the human potential.
The project originality degree consists in the control of the magnetic and structural properties by the optimization of the parameters involves in the synthesis process of the magnetic nanowires
The project brings a meaningful contribution in the development of the new preparation methods and a better understanding of the physical phenomena which appear in the nano systems.
The expected results can be applied in a hyperfrequency domain, high- density data storage and atomic force microscopy technique.
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THE INFLUENCE OF TRANSITIONAL IONS ON THE STATIC AND DYNAMIC FEATURES OF OXIDIC GLASSES WITH SPECIAL PROPERTIES
Call name:
Proiect CEEX nr. 1445
2006
-
2009
Role in this project:
Key expert
Coordinating institution:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M
Project partners:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Affiliation:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Project website:
Abstract:
his research project proposes a subject which is included in a top international research domain: oxide materials.
The main goal of this project is the structural and magnetic characterization of oxide glasses with transition ions.
The specific objectives are:
A) Theoretical determination of vitreous state obtaining conditions
B) Morphologic properties of oxide glasses based on P2O5 and Bi2O3 and their synthesis
C) Structural characterization through infrared absorption and thermical diffusivity
D) Influence study of 3d transitionions on the local symmetry and magnetic behavior
The main objective of this project is framing in the following general objectives of the national research program: (i) the realization of the research activities in the new materials; (ii) the framing in the UE research programs; (iii) a better use of the human potential.
The project originality degree consists in synthesis and structural characterization of new oxide glasses systems with special properties.
The project brings a meaningful contribution in the development of the preparation methods and a better understanding of the physical phenomena which appear in the oxide glasses systems.
The expected results aim to (i) the identification of all parameters involved in the synthesis process, and (ii) structural properties of the oxide glasses materials and the analysis of these properties
The expected results can be applied in the fabrication of switching, memory devices and optical devices due to their special optical properties and good transmission in the infrared domain. Another important field of applications for phosphate glasses is the domain of biomaterials based on the calcium phosphate systems.
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Network of scientific services for structuring and characterization at the nanometric scale, with applications in the development of convergent technologies
Call name:
2005
-
2008
Role in this project:
Key expert
Coordinating institution:
INSTITUTUL NATIONAL DE CERCETARE- DEZVOLTARE PENTRU MICROTEHNOLOGIE - IMT BUCURESTI INCD
Project partners:
INSTITUTUL NATIONAL DE CERCETARE- DEZVOLTARE PENTRU MICROTEHNOLOGIE - IMT BUCURESTI INCD (); INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M (); UNIVERSITATEA POLITEHNICA DIN BUCURESTI (); INSTITUTUL DE CHIMIE MACROMOLECULARA "PETRU PONI" (); UNIVERSITATEA OVIDIUS (); INSTITUTUL DE CHIMIE "CORIOLAN DRĂGULESCU" (); INSTITUTUL NATIONAL DE CERCETARE - DEZVOLTARE PENTRU METALE NEFEROASE SI RARE - IMNR ()
Affiliation:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Project website:
Abstract:
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Static and dynamic effects of disorder, size and reduced dimensionality in crystalline environments
Call name:
CEX-05-T11-7/3
2005
-
2008
Role in this project:
Key expert
Coordinating institution:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M
Project partners:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Affiliation:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Project website:
Abstract:
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Multifunctional materials for efficient conversion of solar energy on thermic energy
Call name:
2005
-
2008
Role in this project:
Key expert
Coordinating institution:
UNIVERSITATEA TRANSILVANIA BRASOV
Project partners:
UNIVERSITATEA TRANSILVANIA BRASOV (); INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Affiliation:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Project website:
Abstract:
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Materials for spintronics
Call name:
2005
-
2008
Role in this project:
Key expert
Coordinating institution:
UNIVERSITATEA TEHNICA CLUJ-NAPOCA
Project partners:
UNIVERSITATEA TEHNICA CLUJ-NAPOCA (); INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Affiliation:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Project website:
Abstract:
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Surface effects in nanometric magnetic materials
Call name:
2005
-
2008
Role in this project:
Key expert
Coordinating institution:
INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU FIZICA TEHNICA-IFT IASI
Project partners:
INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU FIZICA TEHNICA-IFT IASI (); INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Affiliation:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Project website:
Abstract:
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Spin dynamics and effects of reducing the size of metallic / magnetic particles inserted in oxide and polymeric matrices
Call name:
CERES nr. 167/2004
2004
-
2006
Role in this project:
Key expert
Coordinating institution:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M
Project partners:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Affiliation:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Project website:
https://www.itim-cj.ro/index.php?menu=2&submenu=331
Abstract:
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Nanometrology on composite oxide nanostructures and metal nanoclusters by X-ray and magnetic resonance methods
Call name:
MATNANTECH 268 (409)/ 2004
2004
-
2006
Role in this project:
Key expert
Coordinating institution:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M
Project partners:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Affiliation:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Project website:
Abstract:
Read more
Study of the vitreous matrix composition influence on the transition ions behavior
Call name:
Proiect CNCSIS de tip Bd, nr. 221
2003
-
2005
Role in this project:
Project coordinator
Coordinating institution:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M
Project partners:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Affiliation:
INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M ()
Project website:
Abstract:
Read more
FILE DESCRIPTION
DOCUMENT
List of research grants as project coordinator or partner team leader
Significant R&D projects for enterprises, as project manager
R&D activities in enterprises
Peer-review activity for international programs/projects
[T: 0.6959, O: 419]