Aylar: Ağustos 2020

Turkish Scientific and Technological Research Council (TÜBİTAK) introduces a new European Commission Horizon 2020 Marie Sklodowska-Curie Actions Cofund program “Co-Funded Brain Circulation2 Scheme (CoCirculation2)”. CoCirculation2 is the follow up project of the “Co-funded Brain Circulation Scheme (Co-Circulation)”, which has been funded under the FP7-PEOPLE-2011-COFUND call of the 7th Framework Programme.
CoCirculation2 is a 5-year project aiming to invite experienced researchers to both academic and non-academic research performing organizations located in Turkey. Within this context, 100 experienced researchers of any nationality who wish to engage in incoming mobility and to implement a research project in Turkey will be able to apply for a fellowship. 4 calls for proposals will be published, fellowships for calls 1 – 3 will last 24 months, fellowships for call 4 will last 12 months.
The objective of CoCirculation2 is toenhance the career development of 100 Experienced Researchers wishing to diversify their individual competence through advanced training, international and intersectoral mobility opportunities through incoming mobility into Turkey. The triple ‘i’ dimension is applied to the program, with the objective to strengthen the effect of the fellowship on the researchers’ careers. All fellowships must have an international component, and intersectoral and interdisciplinary elements in each project are highly encouraged.
TÜBİTAK is the leading agency for management, funding and conduct of research in Turkey. The Council is an autonomous institution and is governed by a Executive Council whose members are prominent scholars selected from universities, industry and research institutions. More than 2,500 researchers work in 20 different institutes of TÜBİTAK to carry out cutting-edge and applied research. TÜBİTAK also acts as an advisory agency to the Government of Turkey on science and research related issues and is responsible for the secretariat of the Supreme Council for Science and Technology (SCST), the highest S&T policy making body which is headed by the Prime Minister. The programme will be executed by TÜBİTAK-BİDEB, the Science Fellowships and Grant Programmes Department within TÜBİTAK.

You can reach the announcement from the link: http://cocirc2.org.tr

Polyacrylonitrile (PAN) nanofibers are one of the primary precursors in the production of carbon nanofibers. The nanofiber morphology is significantly affected by the process parameters such as polymer concentration, distance, applied voltage and feed rate during the production of PAN nanofibers obtained by the solution-based electrospinning method, and these parameters should be optimized properly. In this study, firstly PAN nanofiber production parameters were optimized, and then homogeneous and thin PAN nanofibers produced in optimum conditions were used as the precursor in the production of carbon nanofibers. PAN nanofibers with a diameter of 233 nm were obtained at 7.5% PAN concentration in N,N-dimethylformamide (DMF), 28 kV applied voltage, 17.5 cm nozzle to collector distance, 2 ml/h feed rate and 500 rpm rotation speed of the aluminum drum. The carbon nanofiber diameters produced after the stabilization and carbonization processes were measured as 200 and 140 nm, respectively. The morphological, chemical and thermal properties of the produced nanofibers were characterized by field emission scanning electron microscopy (FE-SEM), Fourier transform infrared (FT-IR), thermogravimetric analyzer (TGA). Carbon nanofibers, which are made from optimized electrospun PAN nanofibers, can be used to construct supercapacitors in future studies.

Keywoeds: Carbonization, Carbon Nanofiber, Electrospinning, PAN Nanofiber, Supercapacitor

First published: 30 July 2020             DOI: http://jise.btu.edu.tr/tr/pub/issue/56253/726792