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Akbulut, D. Bicak, M. Gicevicius, T. Gokoglan, G. Ramanavicius, L. Msaadi, S. Yoshikawa, Y. Tasdelen, T. Uyar, M. Lahcini, M. Ilsouk, Y. Pan, M. Tasdelen, J. Laun, T. Junkers, Y. Yagci, K. Yilmaz, E. Gumus, H. Akbulut, E. Coskunol, D. Colak, L. Endo, Y.
Diazonium salts for surface-confined visible light radical photopolymerization. Rapid Commun. Photoinduced Cu 0 -mediated atom transfer radical polymerization, S. Kork, M. Tasdelen, Y. Chem Phys. Melamine-based microporous polymer for highly efficient removal of copper II from aqueous solution, O. Taskin, N. Aksu, B. Balkis, Y. Yagci, Polymer International, , 65, Copper II removal from the aqueous solution using microporous benzidine-based adsorbent material. Journal of Environmental Chemical Engineering. ACS Macro Letters. Externally stimulated click reactions for macromolecular syntheses.
Progress in Polymer Science. Ciftci, M. Aydin, M. Narusawa, M. Karatsu, T.
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Ag Seleci, M. Ozkan, B. Demir, M. Seleci, M. Tasdelen, H. Zareie, S. Timur, S. Ozcelik, Y. Dadashi-Silab, M. Reduction of Cu II by photochemically generated phosphonyl radicals to generate Cu I as catalyst for atom transfer radical polymerization and azide-alkyne cycloaddition click reactions, Y. Tasdelen, S. Yilmaz, M. Yagci, Polym. Kiskan, X. Antonietti, Y. Yagci, Macromol. Asiri, S. Khan, Y. Tasdelen, W. Li, K. Matyjaszewski, Y. Dizman, M. Light-Induced Click Reactions, M. Yagci, Angew.
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Uyar, S. Jockusch, N. Turro, Y. Tasdelen, M. Uygun, Y. Photoinduced free radical promoted copper I -catalyzed click chemistry for macromolecular syntheses, M. Tasdelen, G. Yilmaz, B. Iskin, Y. Dizman, S. Ates, T. Tasdelen, L. Torun, Y.
Changes in Reactivity as Chemistry Becomes Confined to an Interface - PDF Free Download
Durmaz, M. Kahveci, M. Uygun, M. Durmaz, Macromol. Uyar, A. Kawaguchi, A. Sudo, T. Yagci, Aust. Beyazit, D.
Gunes, N. Bicak, P. Tatar, A. Demirel, Y. Altinkok, T. Using single micelle electrochemistry and ensemble studies, the reactivity changes of solution phase redox couples in 0D confinement are explored, and the effect of 0D confinement on electrochemical reaction rates and mechanism of multi-electron transfer reactions is investigated. For this, membranes with adjustable pore size are studied: anodically oxidized aluminium AAO, prepared within this project , ion track-etched polymer membranes, and unmodified and metal coated membrane pores.
This is pursued by constant and pulsed high potential electrochemical etching, electrodeposition, cyclic voltammetry and chronoamperometry at porous membranes, surface and cross-sectional characterization atomic force microscopy, scanning electron microscopy. B4: Disentangling One- and Two-dimensional Confinement Effects from Wall Effects The aim of the project is to determine the effect of the dimensionality of confinement onto elementary surface reactions and disentangle geometrical confinement effects from changes due to electronic alterations of the molecules on a fundamental level.
Laser-induced photochemical reactions are studied on surfaces ZnO and rare gas layers on a patterned surface for azobenzene and carbene precursors with small inorganic molecules. Several scanning tunneling microscope techniques are applied, e. B5: Nanoconfined Chemistry within Graphene Slit Pores The aim of the project is to explain nanoconfinement effects on chemical reactivity by computationally studying archetypical chemical reactions in water within graphene slit pores via tuning interlayer distances.
Confinement is achieved by graphene sheets with different interlayer distance down to the limit of allowing only a water monolayer in the confined space, while water self-dissociation plus other key reactions, e. B6: Chemistry in Confinement Characterized by THz Spectroscopy The aim of the project is to study reactions in nanoconfinement and nanoenclosures by THz spectroscopy, identifying the low frequency fingerprints of pressure-induced spectral changes of trapped molecules and the changes of Thz dynamics of confined water.
The applied experimental techniques are THz-FTIR spectroscopy for pressure- and temperature-dependent studies, non-linear THz spectroscopy, and nano-electrospraying for salts solutions in confinement. Skip to the navigation. Skip to the content. Homepage Overview Search A-Z. Buchanan, III. The Journal of Physical Chemistry C , 8 , John W. Kerogen Chemistry 9. Kidder,, Phillip F.
Britt, and, A. Hagaman,, Alan L. Chaffee, and, A. Pyrolysis of Mesoporous Silica-Immobilized 1,3-Diphenylpropane. Impact of Pore Confinement and Size. Journal of the American Chemical Society , 17 , Pathways and Mechanisms of Fast Pyrolysis. Kidder, Phillip F. Britt, Alan L. Chaffee, A.
Confinement effects on product selectivity in the pyrolysis of phenethyl phenyl ether in mesoporous silica. Chemical Communications , 1 ,
Related The Consequences of Surface Confinement on Free Radical Chemistry
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