Sedat Canlı

Central Laboratory
Scopus Author ID
Ultrasonication for Environmentally Friendly Preparation of Antimicrobial and Catalytically Active Nanocomposites of Cellulosic Textiles
Kwiczak-Yigitbasi, Joanna; Demir, Mine; Ahan, Recep Erdem; Canlı, Sedat; ŞEKER, URARTU ÖZGÜR ŞAFAK; BAYTEKİN, BİLGE (2020-12-01)
The global demand for sustainable and functional fibers and textile materials is increasing with the pressure to limit the synthetic petroleum-based counterparts. In this study, we use ultrasonication for the preparation o...
Near-unity haze by aluminum induced glass texturing: structural evolution of Al/glass interface and its impact on texturing
Ünal, Mustafa; Tankut, Aydin; Canlı, Sedat; Turan, Raşit (2017-09-01)
Aluminum induced texturing (AIT) is an effective method to enhance light trapping in thin film solar cells through texturing the surface of the glass substrate. The topography of the textured glass is closely related to th...
Effect of Al vacuum annealing prior to a-Si deposition on aluminum-induced crystallization
Tankut, Aydin; Karaman, Mehmet; Yıldız, İlker; Canlı, Sedat; Turan, Raşit (Wiley, 2015-12-01)
Aluminum-induced crystallization (AIC) experiments were carried out in order to investigate the influence of vacuum annealing of the Al layer at 500 degrees C prior to deposition of e-beam evaporated amorphous silicon (a-S...
Optimized spacer layer thickness for plasmonic-induced enhancement of photocurrent in a-Si:H
Saleh, Z. M.; NASSER, H; ÖZKOL, E; GÜNÖVEN, M; Abak, Musa Kurtuluş; Canlı, Sedat; Bek, Alpan; Turan, Raşit (2015-10-24)
Plasmonic interfaces consisting of silver nanoparticles of different sizes (50-100 nm) have been processed by the self-assembled dewetting technique and integrated to hydrogenated amorphous silicon (a-Si:H) using SiNx spac...
Structural properties of a-Si films and their effect on aluminum induced crystallization
Tankut, Aydin; Karaman, Mehmet; Ozkol, Engin; Canlı, Sedat; Turan, Raşit (2015-10-01)
In this paper, we report the influence of the structural properties of amorphous silicon (a-Si) on its subsequent crystallization behavior via the aluminum induced crystallization (AIC) method. Two distinct a-Si deposition...
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