Items where Author is "Çıkım, Taha Abdullah"
Article
Oral, Özlem and Çıkım, Taha Abdullah and Zuvin, Merve and Ünal, Özlem and Yağcı-Acar, Havva and Gözüaçık, Devrim and Koşar, Ali (2015) Effect of varying magnetic fields on targeted gene delivery of nucleic acid-based molecules. Annals of Biomedical Engineering, 43 (11). pp. 2816-2826. ISSN 0090-6964 (Print) 1573-9686 (Online)
Çıkım, Taha Abdullah and Gözüaçık, Devrim and Koşar, Ali (2014) Power reclamation efficiency of a miniature energy-harvesting device using external fluid flows. lnternational Journal of Energy Research, 38 (10). pp. 1318-1330. ISSN 0363-907X (Print) 1099-114X (Online)
Çıkım, Taha Abdullah and Armağan, Efe and Özaydın İnce, Gözde and Koşar, Ali (2014) Flow boiling enhancement in microtubes with crosslinked pHEMA coatings and the effect of coating thickness. Journal of Heat Transfer, 136 (8). ISSN 0022-1481 (Print) 1528-8943 (Online)
Papers in Conference Proceedings
Çıkım, Taha Abdullah and Oral, Özlem and Acar, Havva Funda Yagci and Gözüaçık, Devrim and Koşar, Ali (2014) Effect of varying magnetic fields on targeted gene delivery of nucleic acid-based molecules. In: 4th Micro and Nano Flows Conference (MNF2014), London, UK
Koşar, Ali and Çıkım, Taha Abdullah and Özaydın İnce, Gözde and Armağan, Efe (2013) Flow boiling enhancement in microtubes with pHEMA coatings. In: ASME International Mechanical Engineering Congress and Exposition, San Diego, USA
Çıkım, Taha Abdullah and Koşar, Ali and Gözüaçık, Devrim and Tatar, Oğuz (2012) Power reclamation efficiency of a miniature energy harvesting device using internal fluid flows. In: ASME International Mechanical Engineering Congress and Exposition, Houston, Texas
Çıkım, Taha Abdullah and Kaya, Alihan and Gözüaçık, Devrim and Koşar, Ali (2012) Power reclamation efficiency of a miniature energy harvesting device using internal fluid flows. In: Global Conference on Global Warming 2012, Istanbul, Turkey
Thesis
Çıkım, Taha Abdullah (2014) Design and developement of energy efficient miniature devices for energy harvesting, thermal management and biomedical applications. [Thesis]