Identifications conceptuelles de l’interaction „politique étrangère – intérêt national – processus intégrationniste”.
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International relations. World, global politics. International affairs. Foreign policy (791)
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CEBOTARI, Svetlana; COTILEVICI, Violeta. Identifications conceptuelles de l’interaction „politique étrangère – intérêt national – processus intégrationniste”.. In: Moldoscopie. 2018, nr. 1(80), pp. 168-185. ISSN 1812-2566.
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Moldoscopie
Numărul 1(80) / 2018 / ISSN 1812-2566

Identifications conceptuelles de l’interaction „politique étrangère – intérêt national – processus intégrationniste”.

Conceptual identifications of the «foreign policy – national interest – process of integration» interaction


CZU: 327
Pag. 168-185

Cebotari Svetlana, Cotilevici Violeta
 
Université d’Etat de Moldavie
 
Disponibil în IBN: 18 aprilie 2018


Rezumat

In the contemporary world, the integration is one of the primary factors of the foreign policy and of the international relations as a whole. At the beginning of the 21st century the world is going through a multitude of processes that take place inside and outside the states. New integrationist groups appear, the organizational forms are diversified and the evolution takes place from simplistic models to more complex ones. As a result, the integrationist processes en-compassed virtually all regions and states, thus contributing to the formation of new international "matrices". This article analyzes the relationship «national interest - foreign policy - integrationist process". Between the notions of "integrationist process" and "national interest", "foreign policy" there is a complementarity report, each one completing one ano-ther. No integration process can be achieved outside and without the involvement of the states, which have a certain interest, which they achieve through the foreign policy.

Cuvinte-cheie
interest, integrationist process, national interest, foreign policy, international relations

BibTeX Export

@article{ibn_84724,
author = {Lupan, O. and Postica, V. and Pauporte, T. and Viana, B. and Terasa, M. and Adelung, R.},
title = {<p>Room temperature gas nanosensors based on individual and multiple networked Au-modified ZnO nanowires</p>},
journal = {Sensors and Actuators, B: Chemical},
year = {2019},
volume = { (299)},
pages = {0-0},
month = {Nov},
abstract = {(EN) <p>In this work, we investigated performances of individual and multiple networked Au nanoparticles (NPs)-functionalized ZnO nanowires (NWs) integrated into nanosensor devices using dual beam focused ion beam/scanning electron microscopy (FIB/SEM) and tested them as gas sensors at room temperature. Such important parameters as diameter and relative humidity (RH) on the gas sensing properties were investigated in detail. The presented results demonstrate that thin Au/ZnO NWs (radius of 60 nm) have a gas response of&nbsp;<em>I<sub>gas</sub>/I<sub>air</sub></em>&nbsp;of about 7.5&ndash;100 ppm of H<sub>2</sub>&nbsp;gas which is higher compared to&nbsp;<em>I<sub>gas</sub>/I<sub>air</sub></em>&nbsp;of about 1.2 for NWs with a radius of 140 nm. They have a low dependence of electrical parameters on water vapors presence in environment, which is very important for practical and real time applications in ambient atmosphere. Also, the devices based on multiple networked Au/ZnO NWs demonstrated a higher gas response of&nbsp;<em>I<sub>gas</sub>/I<sub>air</sub></em>&nbsp;about 40 and a lower theoretical detection limit below 1 ppm compared to devices based on an individual NW due to the presence of multiple potential barriers between the NWs. The corresponding gas sensing mechanisms are tentatively proposed. The proposed concept and models of nanosensors are essential for further understanding the role of noble metal nanoclusters on semiconducting oxide nanowires and contribute for a design of new room-temperature gas sensors.</p>},
doi = {10.1016/j.snb.2019.126977},
url = {https://ibn.idsi.md/vizualizare_articol/84724},
}