Publications of Nevena Arsenova-Härtel

Journal Article (3)

Journal Article
N. Arsenova-Härtel, H. Bludau, R. Schumacher, W.O. Haag, H.G. Karge, E. Brunner and U. Wild: Catalytic and Sorption Studies Related to the para Selectivity in the Ethylbenzene Disproportionation over H-ZSM-5 Catalysts. Journal of Catalysis 191 (2), 326–331 (2000).
Journal Article
N. Arsenova-Härtel, H. Bludau, W.O. Haag and H.G. Karge: Influence of the zeolite pore structure on the kinetics of the disproportionation of ethylbenzene. Microporous and Mesoporous Materials 35-36, 113–119 (2000).
Journal Article
N. Arsenova-Härtel, H. Bludau, W.O. Haag and H.G. Karge: In situ IR spectroscopic study of the adsorption behaviour of ethylbenzene and diethylbenzenes related to ethylbenzene disproportionation over HY zeolite. Microporous and Mesoporous Materials 23 (1-2), 1–10 (1998).

Book Chapter (1)

Book Chapter
N. Arsenova-Härtel, W.O. Haag and H.G. Karge: Pre-stationary period in the ethylbenzene isproportionation over zeolite catalysts. In: Porous Materials in Environmentally friendly Processes: Proceedings of the 1st International FEZA Conference, Eger, Hungary, 1-4 September, 1999. (Eds.): H. Chon and Y.S. Uh. (Studies in Surface Science and Catalysis). Elsevier Science, Amsterdam, 341–350 (1999).

Conference Paper (2)

Conference Paper
N. Arsenova-Härtel, W.O. Haag and H.G. Karge: Pre-stationary period in the ethylbenzene disproportionation over zeolite catalysts. In: Porous materials in environmentally friendly pocesses. (Eds.): I. Kiricsi, G. Pál-Borbély, and J.B. Nagy. (Studies in Surface Science and Catalysis). Elsevier, Amsterdam, 341–350 (1999).
Conference Paper
N. Arsenova-Härtel, W.O. Haag and H.G. Karge: Kinetics study of ethylbenzene disproportionation with medium and large pore zeolites. In: Progress in Zeolite and Microporous Materials. (Studies in Surface Science and Catalysis). Elsevier, Amsterdam, 1293–1300 (1997).

Poster (1)

Thesis - PhD (1)

Thesis - PhD
N. Arsenova-Härtel: Ethylbenzol-Disproportionierung als eine Testreaktion zur Charakterisierung von Zeolithkatalysatoren.
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