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Update Data 
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ayse.bedeloglu@btu.edu.tr |
| Last update: 31/05/2022 | |
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| Name: |
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Institution: |
Bursa Technical University |
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Type of Institution: |
University |
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ORCID number: |
https://orcid.org/0000-0003-2960-5188
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Google Scholar: |
https://scholar.google.com/citations?user=3hKe5-8AAAAJ&hl=tr&oi=ao
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Research Gate: |
https://www.researchgate.net/profile/Ayse-Celik-Be
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Country: |
Turkey
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WEB address: |
https://sayfam.btu.edu.tr/site/ayse.bedeloglu/index.html |
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Working groups of interest |
| - | WG1 - Advances in Porous Materials and Technologies | | - | WG2 - Health | | - | WG3 - Energy | | - | WG4 - Environment | | - | WG5 - Management and Dissemination |
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| Keywords |
| - | | Energy | | - | | Environment | | - | | Health | | - | | Macropores | | - | | Mesopores | | - | | Nanopores | | - | | Oxides | | - | | Porous Semiconductors | | - | | Smart Functional Surfaces | | - | | Technology |
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Research field (Free keywords) |
smart materials,flexible surfaces,textiles,nanofibre, fiber, yarn, fabric, and porous polymer films, energy, nanogenerator, piezoelectric material, supercapacitor, graphene,mxene |
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Scientific expertise |
. She is the first researcher in Turkey and one of the three researchers in the world to conduct studies on the development of photovoltaic fiber, which is her doctoral thesis. Prof. Dr. Ayşe Bedeloğlu continues her studies on the development of fiber-reinforced composites for the defense industry and film and auxetic stent for the medical field, while she focuses on the application of smart materials to flexible surfaces such as textile (nanolfibre, fiber, yarn and fabric) and polymer films. She carries out a multidisciplinary study with the project team and students in the ongoing project 1001 (Development of Nanofiber-Based Flexible and Hybrid Nanogenerators for Wearable Electronics) on the development of flexible nanogenerator materials that produce energy with the piezoelectric and triboelectric effect. They performed 2 patent applications and 1 utility model application from this project. She also established a research group called “smart materials research” (https://www.smartmaterialsresearch.com/) in order to continue and disseminate the synergy she created with her students. |
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Capabilities |
Graphene, mxene, nanowire synthesis, carbon nanofiber production, different porous coating techniques (dip coating, electrospray, dr.blading etc.), nanogenerator tests, photovoltaic cell characterization, electrospinning process, polymer characterization |
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Relevant publications
(3 max.) |
| Flexible carbon nanofiber yarn electrodes for self-standing fiber supercapacitors, https://journals.sagepub.com/doi/abs/10.1177/15280837221094062 |
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| Polyacrylonitrile/polyvinyl alcohol-based porous carbon nanofiber electrodes for supercapacitor applications, https://onlinelibrary.wiley.com/doi/full/10.1002/er.6896 |
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| Poly (vinylidene fluoride) nanofiber‐based piezoelectric nanogenerators using reduced graphene oxide/polyaniline, https://onlinelibrary.wiley.com/doi/full/10.1002/app.48517 |
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Projects
(2 max.) |
| Development of Nanofiber-Based Flexible and Hybrid Nanogenerators for Wearable Electronics |
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| Development of Carbon Nanofiber Based Flexible Hybrid Supercapacitors With Graphene And Conductive Polymer |
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