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Romania
Citizenship:
Romania
Ph.D. degree award:
2004
Mr.
Radu
Silaghi-Dumitrescu
PhD
Professor
-
UNIVERSITATEA BABES BOLYAI
Teaching staff
Prof. Silaghi-Dumitrescu received his PhD degrees from the University of Georgia in Athens, GA, U.S.A. (2004, experimental chemistry) and from the “Babeș-Bolyai” University in Romania (2005, computational chemistry). After a postdoctoral stage at the University of Essex (Colchester, England), he returned to the “Babeș-Bolyai” University in 2007, where he teaches biochemistry, computational chemistry and related subjects, while also serving as president of the Scientific Council (2012-) and director of the Center for University Strategies (2020-). His research explores the mechanisms of redox stress in biology and medicine (especially free radicals and metals) in contexts such as blood substitutes, anticancer drugs, oxidative and nitrosative stress in various ranges of organisms (from anaerobic microorganisms to plants and to vertebrates), or plant extracts – but also interdisciplinary applications of exact science tools in scientometrics or in cultural studies.
>20
years
Web of Science ResearcherID:
not public
Personal public profile link.
Curriculum Vitae (30/04/2024)
Expertise & keywords
Biochemistry
Bioinorganic chemistry
Oxidative stress
Nitric oxide
Computational chemistry
Molecular modeling
Molecular modelling
Spectroscopy
Scientometrics
Oxygen
Biomolecules
Biomimetic
Biomaterials
Metalloproteins
Proteins
Projects
Publications & Patents
Entrepreneurship
Reviewer section
Preventing the oxidative side effects of nonsteroidal anti-inflammatory drugs by PEG-linking them with natural antioxidants
Call name:
P 1 - SP 1.1 - Proiecte de cercetare Postdoctorală - PD-2021
PN-III-P1-1.1-PD-2021-0286
2022
-
2024
Role in this project:
Coordinating institution:
UNIVERSITATEA BABES BOLYAI
Project partners:
UNIVERSITATEA BABES BOLYAI (RO)
Affiliation:
Project website:
https://poisensana.granturi.ubbcluj.ro/
Abstract:
Non-steroidal anti-inflammatory drugs (NSAIDs) are some of the most popular classes of drugs used against pain, inflammation and fever. There are over 30 million people worldwide who take NSAIDs daily over the counter. Over time, researchers have tried to design improved versions of these drugs by conjugating them with various substances to lessen their side effects. Based on project leader’s previous studies on inflammation and natural antioxidants, this project proposes a different strategy for chemically combining NSAIDs with natural antioxidants (rutin) and polyethylene glycol (PEG).
Therefore, the project leader intends to design new conjugates (rutin-diclofenac and rutin-ibuprofen) by binding the antioxidant group (rutin) to PEG. The anti-inflammatory and antioxidant effects of newly developed conjugates will be evaluated using in vivo models of acute and chronic inflammation. This strategy allows NSAIDs to meet their anti-inflammatory potential at the highest level and to carry a strong antioxidant group to prevent and protect gastrointestinal cells and tissues from oxidative damage.
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Heme edge reactivity towards sulfur- and oxygen-based stress agents
Call name:
P 1 - SP 1.1 - Proiecte de cercetare Postdoctorală - PD-2021
PN-III-P1-1.1-PD-2021-0279
2022
-
2024
Role in this project:
Coordinating institution:
UNIVERSITATEA BABES BOLYAI
Project partners:
UNIVERSITATEA BABES BOLYAI (RO)
Affiliation:
Project website:
http://chem.ubbcluj.ro/~rsd/HERSOSA.htm
Abstract:
The project aims to explore, through means of molecular modelling methods, the formation edge-derived heme species in the active site of sulfite reductase. The enzyme was previously shown to use a modified version a heme, namely siroheme, in order to avoid electron transfer through inefficient routes. It was hypothesised that, beside providing a faster route for the transferred electrons required by catalysis, siroheme would also hinder the formation of edge-derived species, such as sulfheme and hydroxyheme, that are known to drastically affect the Fe atoms substrate binding affinity and that can cause porhyrin cleavage. Here we intend to prove that the special conditions provided by the sulfite reductase active site environment could lead to the formation edge-derived hemes through previously unknown mechanisms.
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New Targeted Optical Imaging NanoProbes for Near-Infrared (NIR) Real-Time (RT)Image-Guided Surgery of Ovarian Cancer
Call name:
P 4 - Proiecte Complexe de Cercetare de Frontieră
PN-III-P4-ID-PCCF-2016-0142
2018
-
2022
Role in this project:
Coordinating institution:
UNIVERSITATEA BABES BOLYAI
Project partners:
UNIVERSITATEA BABES BOLYAI (RO); INSTITUTUL ONCOLOGIC PROF.DR.I.CHIRICUTA CLUJ-NAPOCA (RO); UNIVERSITATEA BABES BOLYAI (RO)
Affiliation:
UNIVERSITATEA BABES BOLYAI (RO)
Project website:
https://sites.google.com/view/nanonirsurgery/home
Abstract:
Currently, a hot research topic is developing at the interface between physics, chemistry and materials science from one side and biology and medicine from other side, aiming to provide novel nano-tools for cancer treatment. However, despite advances in pre-operative imaging techniques, there is not a suitable intra-operative technique to provide real-time feedback to surgical oncologist to distinguish healthy tissue from malignant lesions and visualize submilimetrical tumor deposits. It is through a collaborative consortium gathering physicists, chemists, biochemists, biologists, oncologists, surgeons, histopathologists that this project addresses a challenging subject aiming to validate new targeted optical imaging nanoprobes for near-infrared (NIR) real-time image-guided surgery of ovarian cancer. Actually, we will develop targeted contrast agents to bind specifically to the FRα of ovarian cancer cells for enabling “visualization” of ovarian tumors by distinct optical signature in NIR. At the end of project, after their careful evaluation on ovarian cell lines /ovarian tumors xenografts / carcinomatose models, will be in position to proceed in the future as viable contrast agent in real-time image-guided ovarian cancer surgery. We focus our research effort to implement NIR optical nanoprobes containing Food and Drug Administration (FDA) approved compounds as well to promote new related nano-compounds produced in our laboratories. Actually, the development of targeted contrast agent in the NIR wavelengths range is highly relevant and beneficial to cancer surgery as their signal does not compete with background signal of tissue emitted in visible light spectrum and, therefore, a clear and deep difference between healthy tissue and tumoral lesions can be delineated.
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New generation of biomaterials for cosmetic dentistry
Call name:
Joint Applied Research Projects - PCCA-2011 call, Type 2
PN-II-PT-PCCA-2011-3.2-1275
2012
-
2016
Role in this project:
Key expert
Coordinating institution:
UNIVERSITATEA BABES BOLYAI
Project partners:
UNIVERSITATEA BABES BOLYAI (RO); UNIVERSITATEA DE MEDICINA SI FARMACIE (U.M.F) Cluj-Napoca (RO); METAV - CERCETARE DEZVOLTARE S.R.L. (RO); UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA (RO); REMED PRODIMPEX SRL (RO)
Affiliation:
UNIVERSITATEA BABES BOLYAI (RO)
Project website:
http://cosmeticdent.granturi.ubbcluj.ro/
Abstract:
The development of applicative dental medicine orientated towards the improvement of dental esthetics (cosmetic) has lately represented one of the global priority directions. The issue of the multiple etiologies in dental dyschromia and its therapeutic approach according to the diagnosed form and to the color intensity can be ranged within a specialty of dental pathology correlated with the general appearance of the teeth and dental arches. Technological advancements in natural looking, tooth-colored dental materials make today's cosmetic dental treatments more durable and predictable than in years past. Our proposal is based on natural whitening extracts, enzymes and/or compounds, nanoparticles and synthetic compounds. The system is different from others solution in the field, in that it can repair the damage produced on the enamel structure after the whitening process and enhance it; has an evidently whitening rapid effect; reduces the existing pigmentation; provides optical brightener effect; does not contain peroxide or other chemical whitening agents. The whitening process is aimed to be fast, the system is easy to apply and does not harm the natural structure of the tooth. The objectives of this project will focus on creating a new dental whitening agent as gel, based on natural whitening compounds (organic acids promoting redox reactions, natural extracts enriched in such components, as well as enzymes able to bleach food-related dyes in manners not requiring an added amount of peroxide in the formulation), while also containing new nano-sized synthetic compounds that can repair the damage produced on the enamel structure after the whitening process. The novelty of the project is to create a new class of materials used in cosmetic dentistry with remineralization effects and diminished corrosive properties due to the non-peroxide formulation.
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Novel advanced smart biomaterials of giomer type with applications in dentistry
Call name:
Joint Applied Research Projects - PCCA-2011 call, Type 2
PN-II-PT-PCCA-2011-3.2-1419
2012
-
2016
Role in this project:
Key expert
Coordinating institution:
UNIVERSITATEA BABES BOLYAI
Project partners:
UNIVERSITATEA BABES BOLYAI (RO); INSTITUTUL DE CHIMIE MACROMOLECULARA "PETRU PONI" (RO); INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU TEHNOLOGII IZOTOPICE SI MOLECULARE I N C D T I M (RO); UNIVERSITATEA DE MEDICINA SI FARMACIE (U.M.F) Cluj-Napoca (RO); REMED PRODIMPEX SRL (RO)
Affiliation:
UNIVERSITATEA BABES BOLYAI (RO)
Project website:
http://granturi.ubbcluj.ro/giodent
Abstract:
The present research project proposed the elaboration, achievement and experimentation of novel, advanced, smart biomaterial formulations belonging to the giomers class with low polymerization shrinkage, continuous release of fluoride in time, improved adhesion to tooth tissues, high mechanical properties and good biocompatibility to be used in different applications in dentistry.
Given the ample and varied activities to be undertaken, the project requires a consortium to be constituted from five partners, two Universities, one National Research Institute, one Institute of the Romanian Academy and one commercial entity, forming an interdisciplinary team of specialists with experience in chemistry, engineering, physics, materials science, biology and medicine .
The planed results of the research activities are the following: 3 products of giomer type for the restoration of the anterior and posterior teeth, for the prophylaxis of caries with children and as liner/base material; 1 dentin adhesive with improved adhesion to tooth structure, 4 laboratory technologies, 3 Feasibility studies, 3 marketing studies, 4 technical specifications, 6 ISI articles and 2 registered patents.
By achieving the proposed project, contribution is brought to the sustaining of the national policy in the field, by creating the transfer and capitalization opportunities which will lead to the development of a Romanian industry of performing dental products, at
European standards level, having in view the specialized human potential with experience in the field.
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Redox activation of small molecules at biological metal centers
Call name:
Exploratory Research Projects - PCE-2012 call
PN-II-ID-PCE-2012-4-0488
2013
-
2016
Role in this project:
Coordinating institution:
UNIVERSITATEA BABES BOLYAI
Project partners:
UNIVERSITATEA BABES BOLYAI (RO)
Affiliation:
UNIVERSITATEA BABES BOLYAI (RO)
Project website:
http://chem.ubbcluj.ro/~rsd/PCE-2012-4-0488.htm
Abstract:
Redox activation of small molecules by metalloenzymes often entails unusual oxidation states, e.g. low-valent Ni and/or Fe in hydrogenases, or high-valent iron in oxygenases. Such systems offer promise of high-impact practical applicability (e.g., for energy sources, or for facile commodity production), as well as for novel theoretical findings. Our group's recent contributions have focused towards understanding high-valent metal-oxo complexes, as well as low-valent iron systems, with hydrocarbon activation as a special focus. The current proposal is a natural extension of this line of study. The aim is to investigate the reductive and oxidative activation of small molecules at centers including iron enzymes, cobalamin, and related model systems. Substrates for such experiments will be hydrogen sulfide (recently acknowledged as important signalling molecule acting on metalloenzymes), as well as sulfur oxides and oxyanions - with intriguing preliminary new data on cobalamin already reported by us. Enzymes working on halide and carbon oxyanions will offer interesting parallels with the sulfur systems; (mechanisms in, e.g., sulfite reductase or chlorite dismutase still await detailed exploration). Proton reduction is also expected to be implicit in the case of the lower-oxidation states - especially in cobalamin-related models. Computational as well as experimental methods (rapid kinetics, low-temperature spectroscopy) will be employed to this end.
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NANOMANIPULATION OF BIOMOLECULES BY ATOMIC FORCE MICROSCOPY
Call name:
Complex Exploratory Research Projects - PCCE-2008 call
PN-II-ID-PCCE-2008-0312
2010
-
2013
Role in this project:
Partner team leader
Coordinating institution:
UNIVERSITATEA BABES-BOLYAI CLUJ-NAPOCA, CENTRUL DE BIOLOGIE MOLECULARA
Project partners:
UNIVERSITATEA BABES-BOLYAI CLUJ-NAPOCA, CENTRUL DE BIOLOGIE MOLECULARA (RO); UNIVERSITATEA BABES-BOLYAI CLUJ-NAPOCA, LABORATOR NANOTEHNOLOGII FIZICE (RO); UNIVERSITATEA BABES-BOLYAI CLUJ-NAPOCA, CENTRUL DE BIOMATERIALE (RO); UNIVERSITATEA BABES-BOLYAI CLUJ-NAPOCA, LABORATOR NANOFOTOBIOTICA (RO); UNIVERSITATEA BABES-BOLYAI CLUJ-NAPOCA, LABORATOR MODELARE MOLECULARA (RO); UNIVERSITATEA BABES-BOLYAI CLUJ-NAPOCA, LABORATOR SIMULARI NUMERICE (RO)
Affiliation:
UNIVERSITATEA BABES-BOLYAI CLUJ-NAPOCA, LABORATOR MODELARE MOLECULARA (RO)
Project website:
http://granturi.ubbcluj.ro/idei_pcce2008
Abstract:
THE STRONG POINT OF NANOTECHNOLOGY IS THE NANOMANIPULATION: THE ABILITY TO HANDLE AND EXPLORE THE NANOSCALE OBJECTS. ATOMIC FORCE MICROSCOPY (AFM) IS A POWERFUL IMAGING TECHNIQUE THAT CAN VISUALIZE SINGLE MOLECULES BOTH IN AIR AND SOLUTION. USING THE AFM TIP AS AN END-EFFECTOR, AN ATOMIC FORCE MICROSCOPE CAN BE MODIFIED INTO A NANOROBOT. THE MAIN OBJECTIVE OF OUR RESEARCH PROJECT IS TO DEVELOP AN AUTOMATED AFM NANOMANIPULATION SYSTEM WITH VIRTUAL REALITY INTERFACE, WHICH CAN PROVIDE THE OPERATOR WITH REAL-TIME FORCE FEEDBACK AND REAL-TIME VISUAL DISPLAY DURING HANDLING. THIS AFM-BASED NANOROBOTIC SYSTEM WILL ENABLE US TO SIMULTANEOUSLY CONDUCT IN SITU IMAGING, SENSING, AND NANOMANIPULATION, AND WILL OPEN A PROMISING WAY TO INDIVIDUALLY STUDY THE DIFFERENT LIVE CELLS AND THE STRUCTURE-FUNCTION RELATIONSHIPS OF SOME BIOMOLECULES: DNA, PROTEINS, GLYCOPROTEINS. THE RELIABLE AND PRECISE NANOMANIPULATIONS WILL RENDER POSSIBLE THE SINGLE RECEPTOR RECOGNITION AND MONITORING THE RECEPTOR BEHAVIOR ON LIVING CELL SURFACE, AND THE DIRECT INVESTIGATIONS OF THE LIGAND-RECEPTOR INTERACTIONS BOTH IN VIVO AND IN VITRO. OUR NANOMANIPULATION SYSTEM WILL BE ALSO USED FOR THE CHARACTERIZATION AND ASSEMBLY OF NANOSTRUCTURES: FUNCTIONALIZED SILICATE MICROSPHERES AND GOLD NANOPARTICLES. IN THIS PROJECT A SERIES OF BOTTOM-UP AND TOP-DOWN NANOSTRUCTURATION METHODS WILL BE IMPLEMENTED TO ALLOW THE CONTROL OVER SIZE, SHAPE AND GEOMETRY OF NANOPARTICLES. THREE-DIMENSIONAL NANOPARTICLE ARRAYS WILL REPRESENT THE FOUNDATION OF FUTURE OPTICAL AND ELECTRONIC MATERIALS. A PROMISING WAY TO ASSEMBLE THEM IS THROUGH THE TRANSIENT PAIRINGS OF COMPLEMENTARY DNA STRANDS. DNA MEDIATED CRYSTALLIZATION APPROACH WILL FACILITATE BOTH THE CREATION OF NEW CLASSES OF ORDERED MULTICOMPONENT METAMATERIALS AND THE EXPLORATION OF THE PHASE BEHAVIOR OF HYBRID SYSTEMS WITH ADDRESSABLE INTERACTIONS. IN THE SAME TIME, THE MESOSCOPIC SCALE MODELING AND COMPUTER SIMULATIONS OF AFM-BASED NANOMANIPULATIONS WILL BE DONE.
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BIOMEDICAL APPLICATIONS OF METAL COMPOUNDS METALLOMICS
Call name:
Complex Exploratory Research Projects - PCCE-2008 call
PN-II-ID-PCCE-2008-0140
2010
-
2013
Role in this project:
Partner team leader
Coordinating institution:
UNIVERSITATEA BABES-BOLYAI DIN CLUJ-NAPOCA, FACULTATEA DE CHIMIE SI INGINERIE CHIMICA, CENTRUL DE CHIMIE ORGANOMETALICA
Project partners:
UNIVERSITATEA BABES-BOLYAI DIN CLUJ-NAPOCA, FACULTATEA DE CHIMIE SI INGINERIE CHIMICA, CENTRUL DE CHIMIE ORGANOMETALICA (RO); UNIVERSITATEA BABES-BOLYAI DIN CLUJ-NAPOCA, FACULTATEA DE CHIMIE SI INGINERIE CHIMICA, LABORATORUL DE MODELARE MOLECULARA (RO); UNIVERSITATEA BABES-BOLYAI DIN CLUJ-NAPOCA, FACULTATEA DE CHIMIE SI INGINERIE CHIMICA, LABORATORUL DE CARACTERIZARE A COMPUSILOR ORGANOMETALICI (RO); UNIVERSITATEA BABES-BOLYAI DIN CLUJ-NAPOCA, INSTITUTUL DE CERCETARI EXPERIMENTALE INTERDISCIPLINARE, LABORATORUL DE CERCETARI IN ELECTROCHIMIE, CENTRUL DE ANALIZE FIZICO-CHIMICE (RO); UNIVERSITATEA BABES-BOLYAI DIN CLUJ-NAPOCA, FACULTATEA DE CHIMIE SI INGINERIE CHIMICA (RO); INSTITUTUL ONCOLOGIC, PROFESOR DR. I. CHIRICUTA, CLUJ-NAPOCA (RO); UNIVERSITATEA DE MEDICINA SI FARMACIE IULIU HATIEGANU DIN CLUJ-NAPOCA (RO); UNIVERSITATEA DE STIINTE AGRICOLE SI MEDICINA VETERINARA, BANAT, TIMISOARA, FACULTATEA DE TEHNOLOGIA PRODUSILOR ALIMENTARI, DEPARTAMENTUL DE BIOCHIMIE SI BIOLOGIE MOLECULARA (RO); UNIVERSITATEA TEHNICA DIN CLUJ-NAPOCA, FACULTATEA DE STIINTA SI INGINERIA MATERIALELOR, LABORATORUL DE ANALIZA FORMELOR SI STRUCTURILOR TEHNOLOGICE (RO)
Affiliation:
UNIVERSITATEA BABES-BOLYAI DIN CLUJ-NAPOCA, FACULTATEA DE CHIMIE SI INGINERIE CHIMICA (RO)
Project website:
http://chem.ubbcluj.ro/pagini/anorganica/ihaiduc/metallomics/index.html
Abstract:
We propose a complex inter-/trans-disciplinary fundamental research program in the field of biomedical applications of metallocomplexes. The wide international interest on this topic, as well as the perspective of obtaining new fundamental knowledge and the potential applications thereof, justify such a program in romania. The project involves specialists from diverse fields: chemistry, biochemistry, biology, medical doctors specialized in clinical laboratory, medical oncology, chemotherapy, radiotherapy, surgery, anatomo-pathology, pharmacology, cell biology and materials science. Inorganic and organometallic compounds of transition metals and of main group elements (e.g., ga) with heterocyclic ligands containing one or more sulfur and/or nitrogen atoms, chiral as well as achiral (phenothiazines, pyridines, diazines, triazines, tetrazoles), diazenium-diolates, calixarenes, calixpyrroles, dithiocarbamates, and heteropolytopic ligands (p/n, p/s, as/n, as/s), including potential nitric oxide generators, will be synthesized, characterized and tested. In order to facilitate targeted delivery and gradual release of the active components (hence, controlled concentrations thereof), compounds/ligands will be attached to peptidic moieties or other biocompatible matrices. The final goal is to identify compounds with anti-mitotic and anti-proliferative effect, with applications in developing new chemotherapeutical drugs and radiosensitizing materials for use in cancer therapy, as well as the elucidation of biochemical, immunological, molecular, radiobiological, and oxidative stress-related aspects of the interaction of metals with living cells. This will entail a systematic study of the molecular-level interaction between metalloproteins (e.g., cytochrome c, relevant to apoptosis) and the newly-synthesized compounds, as well as of the degree to which the latter modulate the levels of stress agents (e.g., no, superoxide) and/or affect key steps in apoptosis or cancer.
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Susținerea cercetării de excelență la Universitatea Babeș-Bolyai
Call name:
Fondul de Dezvoltare Instituţională - FDI - Competiţia 2018
CNFIS-FDI-2018-0447
2018
-
Role in this project:
Coordinating institution:
UNIVERSITATEA BABES BOLYAI
Project partners:
UNIVERSITATEA BABES BOLYAI (RO)
Affiliation:
Project website:
Abstract:
Obiectivul principal al proiectului este susținerea cercetării de excelență din Universitatea Babeș-Bolyai (UBB), în contextul scopului strategic asumat de UBB, prin Strategia de CDI a UBB pentru perioada 2016-2020, de a se defini ca universitate de tip „world-class”. Obiectivele specifice sunt: O.1. Consolidarea Institutului de Studii Avansate în Știință și Tehnologie al UBB (STAR-UBB http://starubb.institute.ubbcluj.ro/) ca vector primar, definit în 2016 ca urmare a câștigării proiectului CNFIS-FDI-2016-0056 și consolidat prin proiectul CNFIS-FDI-2017-0539, pentru activitățile specifice unei universități de cercetare avansată și educație, respectiv de tip „world-class”, implicând ca prim element definitoriu cercetarea de excelență având în vedere în același timp coordonatele politicilor naționale de dezvoltare a învățământului superior. O.2. Susținerea cu cheltuieli pentru dezvoltare, materiale curente și/sau întreținere/mentenanță a Infrastructurii Strategice de Cercetare a UBB (rUBB), operată de Unitățile de Cercetare de Excelență acreditate la UBB și grupată sub cupola STAR-UBB. O.3. Susținerea prin salarii și burse personalului implicat în activități de cercetare de excelență care operează rUBB, angajat pe perioada determinată, inclusiv prin continuarea dezvoltării sistemului de Doctorat European și a celui de Fellowship introduse de STAR-UBB în cadrul celor două proiecte FDI anterioare.
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Susținerea complexă a internaționalizării la Universitatea Babeș-Bolyai
Call name:
Fondul de Dezvoltare Instituţională - FDI - Competiţia 2017
CNFIS-FDI-2017-0539
2017
-
Role in this project:
Coordinating institution:
UNIVERSITATEA BABES BOLYAI
Project partners:
UNIVERSITATEA BABES BOLYAI (RO)
Affiliation:
Project website:
Abstract:
Obiectivul principal al proiectului țintește creșterea gradului de internaționalizare a Universității Babeș-Bolyai (UBB), în contextul scopului strategic asumat de UBB, prin Strategia de CDI a UBB pentru perioada 206-2020, de a se defini ca universitate de tip „world-class”. Obiectivele specifice sunt: O.1. Creșterea vizibilității UBB pe piața internațională de recrutare a studenților și a tinerilor cercetători, atât în sensul lărgirii generale a bazei de recrutare cât și în sensul lărgirii acestei baze către piețe cu resursă umană cât mai performantă, inclusiv prin implementarea în premieră a Doctoratului European; O.2. Dezvoltarea mecanismelor de atragere a studenților și cercetătorilor din străinătate pentru derularea de activități de cercetare științifică avansată și educație (vizite, cursuri, fellowship-uri) la UBB și/sau în colaborare cu aceasta; O.3. Consolidarea Institutului de Studii Avansate în Știință și Tehnologie al UBB (STAR-UBB http://starubb.institute.ubbcluj.ro/) ca vector primar, definit în 2016 ca urmare a câştigării proiectului CNFIS-FDI-2016-0056, pentru activitățile de internaționalizare specifice unei universități de cercetare avansată și educație, respectiv de tip „world-class” - ambele fiind definiții asumate instituțional de către UBB. STAR-UBB va implementa proiectul cu asistența Consiliului Științific (CS), Institutului de Studii Doctorale (ISD) și a Centrului de Cooperări Internaționale (CCI) ale UBB.
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FILE DESCRIPTION
DOCUMENT
List of research grants as project coordinator
Download (14.22 kb) 06/04/2015
List of research grants as partner team leader
Download (4.25 kb) 06/04/2015
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
Download (12.74 kb) 26/01/2018
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