Ziyaretçi bilim insanlarımız bölümümüzde yüksek etkili araştırmalara imza atıyor.

Created date

15/02/2021 - 15:25

2019 yılından itibaren TÜBİTAK destekleri kapsamında birçok misafir araştırmacı bölümümüzde çalışmaya başladı. Misafir araştırmacılarımızın özgeçmişleri ve araştırma alanları ile ilgili bilgiler aşağıdadır.

Prof. Dr. İskender Gökalp

Prof. Dr. İskender Gökalp is a visiting professor as part of his TÜBİTAK BİDEB 2232 International Fellowship for Outstanding Researchers Programme.

Biography

Dr. İskender Gökalp received his Aeronautical Engineering degree from the Istanbul Technical University (1974) and a PhD on Combustion (1981) from Paris VI University (Université Pierre et Marie Curie). Between 1979 and 1983 he was assistant and associate professor at the Faculty of Mechanics of this university and he joined the French National Centre for Scientific Research in October 1983 as Senior Scientist. In 2003, he became the Director of the Laboratory of Combustion and Reactive Systems in Orleans. In 2007, he founded the Institute on Combustion, Aerothermal Sciences, Reactivity and Environment (ICARE) and was its Director until November 2016. In 2011, he founded the French Centre of Excellence on Chemical Kinetics and Aerothermodynamics of Clean and Safe Energy and Propulsion Systems (CAPRYSSES); he directed this Centre until November 2016.

His main research domains concern chemical energy conversion for energy generation and aerospace propulsion. Examples of his expertise areas are combustion systems for gaseous, liquid and solid fuels, mainly turbulent combustion, droplet and spray combustion, microgravity combustion, high pressure combustion, coal and biomass combustion and gasification, waste to energy topics (such as the disposal and valorisation of sewage sludge, food and agricultural waste, scrap tires), hydrogen generation and combustion, CO2 capture and valorisation, combustion technologies for aerospace propulsion.

He is the author of 165 publications referred in the WEB of Science core collection and has an H-Index of 33 with 3186 citations received without self citations. He supervised 70 PhDs in combustion and related domains at the University of Orléans. He had several national and international responsibilities, such as President of the Federation of the European Sections of the Combustion Institute (2001-2014). He was the Principal investigator of several French, European and International research programs on energy, combustion and propulsion topics with various academic and industrial partners. One such recent important program he coordinated was the EU funded project OPTIMASH (2011-2016) on the gasification of Indian and Turkish high ash coals. He also has continuous activities in the social studies of science and technology areas, mainly on interdisciplinarity, social studies of science & technology, dynamics of network industries, both for Turkish and international socio-economic conditions.

Presently, he is an Emeritus research director at ICARE-CNRS, Orléans. In December 2019 he started a research professorship at the Middle East Technical University, Mechanical Engineering Department, in Ankara. This position is supported by the TUBITAK International Fellowship for Outstanding Researchers Program. He is also the CEO of the company IGDEAS Energy and Defence Technologies A.S. located at the Technopark of METU in Ankara

He is Recipient of the French distinction “Chevalier des Palmes Académiques (2006) and of the Boris Gelfand Medal of the Russian Academy of Sciences (2014). He is a Fellow of the International Combustion Institute (2018).

Research interests

  • Modeling and numerical simulations of lignite char gasification with CO2: the effect of gasification parameters on internal transport phenomena. FUEL Volume 285, 1 February 2021. DOI: https://doi.org/10.1016/j.fuel.2020.119067

    Karaca, M., Kaya D., Yozgatligil A., Gökalp, I. (2021)

  • Cultivation of green microalgae by recovering aqueous nutrients in hydrothermal carbonization process water of biomass wastes. JOURNAL OF WATER PROCESS ENGINEERING. DOI: https://doi.org/10.1016/j.jwpe.2020.101783

    Seray Zora Tarhan, Anıl Tevfik Koçer, Didem Özçimen, Iskender Gökalp (2021)

  • Hydrodynamics, heat transfer and kinetics reaction of CFD modeling of a batch stirred reactor under hydrothermal carbonization conditions. Accepted for publication in ENERGY. EGY_119635

    Diakaridia Sangare, Stéphane Bostyn, Mario Moscosa-Santillan, Iskender Gökalp (2021)

  • Combustion mechanism and model free kinetics of different origin coal samples: Thermal analysis approach. ENERGY Volume: 204 Article Number: 117905. DOI: 10.1016/j.energy.2020.117905

    Jayaraman, K., Kök, MV., Gökalp, I (2020)

  • Utilization of hydrothermal process water for microalgal growth. EURASIAN J BIO CHEM SCI 3(1): 42-47. DOI: https://doi.org/10.46239/ejbcs.733899

    Seray Zora Tarhan, Anıl Tevfik Koçer, Didem Özçimen, İskender Gökalp (2020)

  • Hidrojenin Enerji Vektörü olarak Güvenli Gelişimini Teşvik Etmek İçin Holistik Bir Yaklaşım. MÜHENDIS VE MAKINA GÜNCEL, Mart 2020, ss. 34-41

    Iskender Gökalp (2020)

  • Catalytic gasification of light and heavy gas oils in supercritical water. JOURNAL OF THE ENERGY INSTITUTE 93: 2025-2032 DOI: 10.1016/j.joei.2020.04.018

    Rana, R., Nanda, S., Reddy, SN., Dalai, AK., Kozinski, JA., Gökalp, I. (2020)

  • Experimental Study of EGR Dilution and O(2)Enrichment Effects on Turbulent Non-Premixed Swirling Flames COMBUSTION SCIENCE AND TECHNOLOGY DOI: 10.1080/00102202.2020.1786375

    Zaidaoui, H., Boushaki, T., Koched, A., Sautet, JC., Sarh, B.,Gökalp, I. (2020)

  • Modeling of Agave Salmiana bagasse conversion by hydrothermal carbonization (HTC) for solid fuel combustion using surface response methodology. AIMS ENERGY 8: 538-562. DOI: 10.3934/energy.2020.4.538

    Sangare, D., Missaoui, A., Bostyn, S., Belandria, V., Moscosa-Santillan, M., Gökalp, I. (2020)

  • Döngüsel Ekonomi Cözümleri, FORBES Ocak 2020, pp. 216-218

    Gökalp, I. (2020)

  • Enerji Sistemleri ve Hidrojen, FORBES Subat 2020, ss. 50-52

    Gökalp, I. (2020)

  • Toplumsal Kabullenebilen Risk, YENI AKTÜEL WEEKEND Mart 2020, ss. 32-33

    Gökalp, I. (2020)

Prof. Dr. Christophe Allouis

Prof. Dr. Christophe Allouis is a visiting professor as part of his TÜBİTAK BİDEB 2232 International Fellowship for Outstanding Researchers Programme.

Biography

Christophe Allouis graduated in engineering at Ecole Supérieure de l’Energie et des Matériaux, Orléans (F). He specialized in energy conversion and obtained his Ph.D with jury honours of the University of Orléans, after the discussion on Characterization Of Combustion Processes Of Rapeseed Oil And Its Blends With Alcohol As Liquid Fuels In Stationary Burners. He was hosted by CNRS in Orléans (FR), University of Utah (USA) and DLR stuttagart (DE) as invited researcher. He has been selected as Seconded Nation Expert at the EU commission DG Regio for the preparation of the H2020 program. He is still involved as an expert for EU project evaluation. Permanent researcher from 2001, he is mainly involved in the study of low carbon combustion systems, renewable fuels for energy production.

Researh interests

Former research activity concerned the sustainability use of biofuel use as renewable fuels for power production. He also spent a lot of energy to Design and optimize open fire place and pellet burner (P<50 kW) fuelled with traditional and renewable fuels to meet German and Austrian emission rules. He is till working on spray characterization and Production optimization of nanoparticles for food integrator. Recent activity concerned the use of Low rank biofuels feasibility as fuels for micro and industrial gas turbine burner. A large part of the activity is devoted to Combustion instabilities though innovative optical diagnostics.

Jayaraman Kandasamy

Prof. Dr. Jayaraman Kandasamy is a visiting professor as part of his TÜBİTAK BİDEB 2232 International Fellowship for Outstanding Researchers Programme.

Biography

Dr. Jayaraman Kandasamy received his Master of Engineering (Aeronautical), at Department of Aeronautical Engineering, Madras Institute of Technology, Anna University, and doctorate from Indian Institute of Technology, Madras, India, in the field of nano-particles production and characterisation and its application in aerospace propulsion. He worked as Principal Project Officer at Department of Aerospace Engineering, IIT Madras, Chennai. He was awarded for Sandwich Postdoc Fellowship from Science Technology and Service, Embassy of France, New Delhi, India. He performed the postdoc fellowship research at Institut de Combustion Aérothermique Réactivité et Environnement, Centre National de la Recherche Scientifique, France. He initiated the hydrogen generation using clean technologies relevant for on-demand applications, avoiding storage costs and risks which is of great importance towards various usages and transport applications in fuel cells, internal combustion engines and micro gas turbines for both propulsion and energy generation applications. He has started intensive research activities at ICARE on the energetics of metal combustion (Al and Mg) for space propulsion applications and for future Mars Sample Return Missions using the in-situ propellant production concept (in this case the use of Martian CO2 to burn Al and Mg present in the Martian soil).

He carried out several research projects worth of 2.1 Million Turkish Lira (~21 Million INR) sponsored by Gas Turbine Research and Establishment and Department of Science and Technology, Government of India. He worked as senior researcher at ICARE, France, for the “Optimizing gasification of high-ash content coals for electricity generation” (Optimash – France, Netherland, Turkey and India) an Indo-European collaborative project under seventh framework programme of European Union for 4 years. He mentored several research students at ICARE-CNRS from University of Orleans and Polytech Orleans, France to fulfill their graduation requirements.

He is also working in the field of renewable energy technology; the pyrolysis, combustion and gasification studies of several carbonaceous materials, such as scrap tyres, biomass (Miscanthus, Olive waste, sewage sludge, etc.,) samples, petcoke, oil shale and oil sand sample characteristics to optimize its effective usage in system level configurations He has vast experience in renewable energy has showcased his abilities in publishing 45 documents in Scopus, has an H-index of 20 with 1220 citations. In January 2020 he started a research professorship at the Middle East Technical University, Mechanical Engineering Department, in Ankara. This position is supported by the TUBITAK International Fellowship for Outstanding Researchers Program.

Research interests

Experimental research: The aluminum particles are activated using Gallium-Indium-Tin-Zinc eutectics. This metal eutectic penetrates into the alumina layer; forms crack on the aluminum layer and boundary of the aluminum particles which reduces the mechanical strength of the aluminum and activate the aluminum surface for further reaction with water. Due to its higher specific surface and insufficient galinstan eutectic content on the surface, the smaller-sized aluminum (30 µm) particles exhibit lower hydrogen generation rate than bigger-sized aluminum (60 and 350 µm) particles. With 15% galinstan eutectic by mass in 60 µm aluminum particles, 97.5% of hydrogen yield is achieved. The galinstan eutectic content should be increased beyond 15% by mass to maximize the hydrogen yield for smaller particles (<60 µm). The temperature augmentation influence the hydrogen generation rate and hydrogen yield as well.

Some recent publications

  • Combustion mechanism and model free kinetics of different origin coal samples: thermal analysis approach. Energy Volume 204, 1 August 2020, 117905, https://doi.org/10.1016/j.energy.2020.117905

    Kandasamy Jayaraman, Mustafa Versan Kök and Iskender Gökalp

  • Studies on aluminium agglomeration and combustion in catalyzed composite propellants, Combustion Explosion and Shockwaves, (accepted for publication).

    K. Tejasvi, V Venkateshwara Rao, Y Pydi Setty, K Jayaraman

  • Combustion behaviour of composite sandwich propellants containing RDX. Proceedings of the Combustion Institute, (in press) https://doi.org/10.1016/j.proci.2020.06.387.

    K. Gnanaprakash, S. R. Chakravarthy, Kandasamy Jayaraman, H. Appu, D. Singh, Rohit, and Ananthram (2020)

  • Heating rate effects on pyrolysis, gasification and combustion of olive waste, Biofules, https://doi.org/10.1080/17597269.2019.1594598.

    Abdallah Elorf, Jayaraman Kandasamy, Veronica Belandria, Stéphane Bostyn, Brahim Sarh, Iskender Gökalp

  • Ultra-fine aluminium characterization and its agglomeration features in solid propellant combustion for various quenched distance and pressure, Propellants Explosives and Pyrotechnics, Vol 5, 2020, 714-723. https://doi.org/10.1002/prep.201900371.

    K. Tejasvi, V Venkateshwara Rao, Y Pydi Setty, K Jayaraman

  • Development of nano-Al based highly metalized fuel-rich propellant for water ramjet propulsion applications, Propellants Explosives and Pyrotechnics, Vol 5, 2020, 1026-1045. https://doi.org/10.1002/prep.201900384

    R Murugesan, SR Chakravarthy, J Kandasamy

  • Mean Burning Rate Variation in Composite Propellant Combustion Due to Longitudinal Acoustic Oscillations, Journal of Propulsion and Power, 2020, published online, https://doi.org/10.2514/1.B37533

    B Kathiravan, Rajendra Rajak, C Senthilkumar, K Jayaraman

  • Experimental Investigation of Mean Burning Rate Variation Due to Acoustic Pressure Oscillations on Plateau Propellants Combustion, Combustion and Flame, 2021, https://doi.org/10.1016/j.combustflame.2020.11.018.

    B Kathiravan, Rajendra Rajak, C Senthilkumar, K Jayaraman

Osman Gültekin

Dr. Osman Gültekin is a visiting researcher as part of his TÜBİTAK BİDEB 2236 Co-Funded Brain Circulation Scheme 2 funding.

Biography

Osman Gültekin holds a Bachelor’s degree from the Department of Civil Engineering at Middle East Technical University in Ankara, Turkey where he was introduced to the realm of continuum and computational solid mechanics. Upon completing his Bachelor’s study in 2011, Osman moved to Stuttgart, Germany and enrolled in the international Master’s degree program, Computational Mechanics of Materials and Structures (COMMAS) at University of Stuttgart where he performed the Master’s thesis study under the supervision of Assoc. Prof. Dr. Hüsnü Dal and late Prof. Dr. Christian Miehe. He received his M.Sc. degree in 2014 with the thesis entitled “A Phase-Field Approach to the Fracture of Anisotropic Medium”.

In February 2014, Osman started his doctoral studies at the Institute of Biomechanics, Graz University of Technology (TU Graz) under the supervision of Prof. Dr. Gerhard A. Holzapfel. His research was largely focused the better understanding of the mechanics of soft biological tissues, in particular the myocardium and arterial walls in health and disease based on the computational methods. He completed his Ph.D. study with distinction in November 2018 with the thesis entitled “Computational Inelasticity of Fibrous Biological Tissues with a Focus on Viscoelasticity, Damage and Rupture”.

As of January 2019, he has been pursuing his postdoctoral studies as a visiting researcher at the Department of Mechanical Engineering at Middle East Technical University (METU) in Ankara, Turkey. Since May 2020, he has been working on a stand-alone project entitled “Experimental and Numerical Analysis of Thermomechanical Fracture Processes in Polymers Accounting for Ductile to Brittle Transition” at the same department. The project is funded by the European Commission Horizon 2020 Marie Sklodowska-Curie Actions Cofund program introduced by TUBITAK under BIDEB 2236 Co-Funded Brain Circulation Scheme 2.

Research interests

The research areas of Dr. Osman Gültekin mainly cover the computational modeling and analysis of multi-physics problems occurring in fibrous soft biological tissues, polymeric and composite materials with a focus on the hyperelastic, viscoelastic, plastic and fracture responses. In this regard, Osman has been actively involved in the computational modeling of viscoelasticity in human passive myocardium, see Fig. 1, capturing the delayed elastic mechanical response of the left ventricular wall in a cardiac pressure cycle with strong hystereses behavior.

Figure 1 - The collagen fiber stretch associated with elastic (top) and viscoelastic (bottom) responses during a single cardiac cycle from A to E.

Apart from the cardiac tissue, he has also focused on the numerical aspects of multi-physics problems in biomechanics, in particular the intricate phenomenon of human arterial rupture occurring due to cardiovascular diseases, such as, atherosclerosis, aortic dissection and aneurysms, see Fig. 2. He proposed one of the first anisotropic crack phase-field models with a novel energetic failure criterion featuring distinct crack evolutions associated with the isotropic matrix material response and the anisotropic collagenous fiber response of arterial tissues.

Figure 2 - Evolution of crack within a segment of human aorta which will eventually cause a tear that leads to the creation of false lumen under two different loading patterns (a) and (b) in a single cardiac cycle from A to C, respectively.

He is currently interested in inelastic mechanical responses of polymeric materials such as rubber-like materials and amorphous glassy polymers with an emphasis given to viscoelasticity, see Fig. 3 and thermomechanical fracture. In the future, he would like to establish a laboratory dealing with experimental and computational biomechanics and continue his research on the way to develop holistic approaches through data-driven modeling and/or artificial intelligence that can enable the communication between the meso- and micro-scale patient-specific mechanical information and the extant macro-scale continuum models. Consequently, these research studies should aim to support clinics, medical monitoring and investigation as well as the biomedical industry.

Figure 3 - Model predictions against the experimental data of relaxation tests with four different stretch values.

Behrang Hosseini Aghdam

Dr. Aghdam is a visiting research doing postdoc under the supervision of Prof. Dr. Ender Ciğeroğlu.

Biography

  • PhD in Mechanical Engineering

    K. N. Toosi University of Technology, Tehran, Iran.

    Thesis: On-line tool wear estimation in a machining process with the use of vibration signals

  • MSc in Mechanical Engineering

    Tabriz University, Tabriz, Iran

    Thesis: Nonlinear dynamic modeling of a 6-DOF gear system including gear errors and tooth defects.

  • BSc in Mechanical Engineering

    K. N. Toosi University of Technology, Tehran, Iran.

Research interests

In this project, Wavelet Transform and Nonstationary time series models are employed for the detection, localization and estimation of fatigue cracks in cantilever beams via vibration signals. For this purpose, beams including intact and cracked specimens are excited with a controlled force (acceleration) using an electromechanical shaker. Acceleration signals recorded from beams with different crack properties are processed and modelled. Then crack related features that are extracted from models/signals are used for diagnosis purpose.

Accomplished research

  • Design and evaluation of a non-linear vibration isolator system with dry friction dampers
  • Vibration based tool wear estimation in turning processes with the use of time series models

Published papers

  • Vibration-based tool wear estimation by using non-stationary Functional Series TARMA (FS-TARMA) models, Int J Adv Manuf Technol

    B. H. Aghdam, E. Cigeroglu (2017)

Esra Eroğlu

Dr. Eroğlu is a visiting researcher doing postdoc under the supervision of Prof. Dr. İskender Gökalp.

Biography

Dr. Esra Eroğlu was born in Ankara, Turkey. She received her B.Sc. degree (2010) in the Department of Physics, Faclity of Arts and Sciences from Gazi University, Ankara, Turkey. She completed her M.Sc. (2012) and Ph.D. (2019) degrees in the Department of Physics, Graduate School of Natural and Applied Sciences at Gazi University, Ankara, Turkey.

Her research interests are in Nanotechnology, Computational Materials Science, Molecular Modeling, Renewable Energy Systems, Hydrogen Energy Applications, 2D Materials Science, Boron and Boron Compounds, Borophene and Graphene Layers. She has publications in internationally reputable journals, many international and national presentations consisting of oral and poster mainly involved hydrogen storage applications, boron layers, borophenes, graphene layers, graphene-based systems. Presently, she researches on 2D and 3D nanomaterials, boron and boron compounds, hydrogen generation and combustion, physical and chemical adsorption, chemical energy conversion, hydrolysis and gasification reactions.

She has been currently with the Department of Mechanical Engineering at Middle East Technical University as a Ph.D. Researcher supported by the TUBITAK International Fellowship for Outstanding Researchers Program, since November, 2020.

Research interests

  • Effect of boron substitution on hydrogen storage in Ca/DCV graphene: A first-principle study. International Journal of Hydrogen Energy, 44(50), 27511-27528.

    Eroğlu E., Aydın S., Şimşek M. (2019).

  • Stability of Intrinsic and Extrinsic co-decorated Boron Sheets with Li and Mg. Computational Condensed Matter, 17, 00345.

    Eroğlu E., Aydın S., Şimşek M. (2018).

  • Light Extraction Efficiency Enhancement of InGaN Near UV LEDs by Genetic Algorithm

    Öner B. B., Öner Alp İ., Eroğlu E., Aydın S. Ş., Öztekin Çiftci Y. International Conference on Advanced Materials Science & Engineering and High Tech Devices Applications; Exhibition (ICMATSE 2020), Gazi University, Ankara, TURKEY (Oral Presentation), (02-04 October 2020).

  • Light Extraction Efficiency Enhancement of InGaN Near UV LEDs by Genetic Algorithm

    Öner B. B., Öner Alp İ., Eroğlu E., Aydın S. Ş., Öztekin Çiftci Y. International Conference on Advanced Materials Science & Engineering and High Tech Devices Applications; Exhibition (ICMATSE 2020), Gazi University, Ankara, TURKEY (Oral Presentation), (02-04 October 2020).

  • Optimization of ZnO-based Near UV Solar Cell and Light Emitting Devices

    Öner B. B., Öner Alp İ., Eroğlu E., Aydın S. Ş., Öztekin Çiftci Y. 7th European Conference On Reneweble Energy Systems (ECRES), İstanbli-Turkey (Oral Presentation), (24-25 August 2020).

  • Hydrogen Storage Properties of Ca-Decorated BC3 Sheet

    Eroğlu E., Aydın S., Şimşek M. Turkish Physical Society 36th International Physics Congress, İstanbli-Turkey (Oral Presentation), (01-05 September 2020).

  • B(666) Borofen Tabakasının Yüksek Kapasiteli Hidrojen Depolama Özellikleri

    Eroğlu E., Aydın S., Şimşek M. 25. Yoğun Madde Fiziği-Ankara Toplantısı, Hacettepe University, Ankara- Turkey (Oral Presentation), (20 December 2019).

  • Enhancement of Hydrogen Storage Capacity of Ca-Decorated B(666) Borophene Layer: A First-Principles Investigation

    Eroğlu E. Turkish Physical Society 35th International Physics Congress. Bodrum-Turkey (Poster Presentation), (04-08 September 2019).

  • The Hydrogen Storage Properties of Boron-Doped Graphene-Based Layered BC3, BC7 and BN Structures: A First-Principles Study

    Eroğlu E. Turkish Physical Society 35th International Physics Congress. Bodrum-Turkey (Oral Presentation), (04-08 September 2019).

  • Bor Katkılı Çift Boşluklu Grafen Tabakalarda Hidrojen Depolama Özellikleri

    Eroğlu E., Aydın S., Şimşek M. 24. Yoğun Madde Fiziği-Ankara Toplantısı, Bilkent University, Ankara-Turkey (Poster Presentation), (21 December 2018).

  • A Theoretical Investigation of Li and Mg Doping Effects on Two Dimensional Boron Layers

    Eroğlu E., Aydın S., Şimşek M. Turkish Physical Society 34th International Physics Congress, Bodrum-Turkey (Oral Presentation), (05-09 September 2018).

  • Mg-Dekore Edilmiş Bor Tabakalarının Elektronik ve Yapısal Özelliklerinin İlk-Prensiplerle İncelenmesi

    Eroğlu E., Şimşek M. 23. Yoğun Madde Fiziği-Ankara Toplantısı, Middle East Technical University, Ankara- Turkey (Poster Presentation), (22 December 2017).

  • Hydrogen Adsorption Capacity of Mg-Doped Planar B21-Boron Layer: A Study of First Principles

    Eroğlu E., Şimşek M. Turkish Physical Society 33th International Physics Congress, Bodrum-Turkey (Poster Presentation), (06-10 Jliy 2017).

  • Hydrogen Storage Properties of Boron-Doped Ca-Decorated DCV Graphene Structures

    Eroğlu E., Şimşek M. Turkish Physical Society 33th International Physics Congress, Bodrum-Turkey (Oral Presentation), (06-10 Jliy 2017).

  • Li ve Mg Atomlarının Düzlemsel B21-Bor Katmanı Üzerine Etkisinin İlk-Prensiplerle İncelenmesi

    Eroğlu E., Şimşek M. 22. Yoğun Madde Fiziği-Ankara Toplantısı, Ankara University, Ankara- Turkey (Poster Presentation), (16 December 2016).

  • First-Principles Study of Zigzag Boron Sheets

    Eroğlu E., Şimşek M. Turkish Physical Society 32th International Physics Congress, Bodrum-Turkey (Poster Presentation), (06-09 September 2016).

  • Zigzag Kenarlı Bor Nanoşeritlerin Elektronik ve Yapısal Özellikleri

    Eroğlu E., Şimşek M. 21. Yoğun Madde Fiziği-Ankara Toplantısı, Gazi University, Ankara- Turkey (Poster Presentation), (25 December 2015).

  • Zigzag Kenarlı Bor Nanoşeritlerde Hidrojen Etkisinin İncelenmesi

    Eroğlu E., Şimşek M. 20. Yoğun Madde Fiziği-Ankara Toplantısı, Hacettepe University, Ankara- Turkey (Poster Presentation), (26 December 2014).

  • B13-N Nanoşeridinde Azot Atomunun Etkisinin İlk-Prensipler Yaklaşımı ile İncelenmesi

    Eroğlu E., Şimşek M. Turkish Physical Society 31th International Physics Congress, Bodrum-Turkey (Poster Presentation), (21-24 Jliy 2014).

  • B13-C Nanoşeridinde Karbon Atomunun Etkisinin İlk-Prensipler Yaklaşımı ile İncelenmesi

    Eroğlu E., Şimşek M. 19. Yoğun Madde Fiziği-Ankara Toplantısı, Bilkent University, Ankara- Turkey (Poster Presentation), (20 December 2013).

  • Bor ve Bor-Zengini Nanoşeritlerin Yapısal ve Elektronik Özelliklerinin İlk-Prensipler Yaklaşımı ile İncelenmesi

    Eroğlu E., Aydın A., Şimşek M. Turkish Physical Society 30th International Physics Congress, İstanbli-Turkey (Poster Presentation), (02-05 September 2013).

Rasiha Nefise Mutlu

Dr. Mutlu is a visiting researcher doing postdoc under the supervision of Prof. Dr. İskender Gökalp.

Biography

She received his undergraduate degree from the chemistry department of Çukurova University and completed his master's and doctorate in 2018 at Çukurova University, Department of Chemistry, and Physical Chemistry. She worked as a post-doctoral researcher at Mersin University for 2 years. Her research topics include energy such as batteries, electrolyze process under subcritical environment and hydrogen energy, material sciences such as corrosion, anodic oxidation, coating etc. and studies. Now she is working as a postdoctoral researcher in METU mechanical engineering department.

She has been currently with the Department of Mechanical Engineering at Middle East Technical University as a Ph.D. Researcher supported by the TUBITAK International Fellowship for Outstanding Researchers Program, since November, 2020.