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Update Data 
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cemb@hacettepe.edu.tr |
| Last update: 16/02/2022 | |
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| Name: |
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Institution: |
Hacettepe University, Department of Nanotechnology and Nanomedicine |
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Type of Institution: |
University |
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ORCID number: |
https://orcid.org/0000-0001-8717-4668
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Google Scholar: |
https://scholar.google.com/citations?user=5HaqMYwAAAAJ&hl=en
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Publons: |
https://publons.com/researcher/2654669/cem-bayram/
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Research Gate: |
https://www.researchgate.net/profile/Cem-Bayram
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Country: |
Turkey
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WEB address: |
https://avesis.hacettepe.edu.tr/cemb/publications |
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Working groups of interest |
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| Keywords |
| - | | Health | | - | | Macropores | | - | | Mesopores | | - | | Nanopores | | - | | Smart Functional Surfaces |
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Research field (Free keywords) |
titanium dioxide nanotube, osseointegration, hydrogel, surface modification |
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Scientific expertise |
I received my BSc degree in Chemistry in 2005 and currently I am an assistant professor in Hacettepe University, Institute of Science and Technology, Nanotechnology and Nanomedicine Department, where i received my PhD degree in 2013. The topic of my doctoral thesis was "the surface modification of titanium implants at nanoscale via anodic oxidation". After receiving my PhD i worked as a research engineer in core research facility of the same university for five years, mainly responsible for the FIB-SEM and surface characterization devices. To date, I have co-authored 30 publications published within the scope of the WOS SCI-Expanded index and 350 citations to them, with an h-index of 11. All research studies involve co-researchers from science, engineering, medicine, pharmacy and dentistry. |
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Capabilities |
Our principal research interest areas are the synthesis of ordered titania nanotube arrays by electrochemical anodic oxidation, with varying thickness and morphologies and also control their stand-alone membrane forms for further applications after functionalization of the nanotubes. Additionally, we are currently collaborate with diverse disciplines from electronics engineering to medical genetics in terms of capacitive sensing, water harvesting, implant modification and cell differentiation applications. Currently there are two main research interests of our research team, one of them has been focused on stand alone membrane forms of through-hole nanotube arrays and their usability on thin seperation devices for microfluidics systems. The second one is related with the surface characteristics of diverse porous titania surfaces and their epigenetics effects on mesenchymal stem cells |
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Relevant publications
(3 max.) |
| Dual delivery of platelet‐derived growth factor and bone morphogenetic factor‐6 on titanium surface to enhance the early period of implant osseointegration Journal of Periodontal Research 55 (5), 694-704 |
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| Titania nanotubes with adjustable dimensions for drug reservoir sites and enhanced cell adhesion Materials Science and Engineering: C 35, 100-105 |
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| Osteoblast response on co-modified titanium surfaces via anodization and electrospinning. Applied surface science 288, 143-148 |
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Projects
(2 max.) |
| “Investigation of Biological Molecular Release Kinetics from Titanium Metal Surfaces withControllable Porosity, Coordinator, Hacettepe University, Scientific Research Projects. Project no: 2015 – FHD – 6700 |
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| “Fabrication and Characterization of Titanium Dioxide Nanotube Based Membrane Systems for Blood Filtration Applications, Hacettepe University, Scientific Research Projects Coordination Unit, Project no: 2021 – FYL – 19673 |
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